The Indian Dental Academy is the Leader in continuing dental education , training dentists in all aspects of dentistry and offering a wide range of dental certified courses in different formats.
Indian dental academy provides dental crown & Bridge,rotary endodontics,fixed orthodontics,
Dental implants courses.for details pls visit www.indiandentalacademy.com ,or call
0091-9248678078
Porcelains used in metal ceramics /certified fixed orthodontic courses by Ind...Indian dental academy
The Indian Dental Academy is the Leader in continuing dental education , training dentists in all aspects of dentistry and offering a wide range of dental certified courses in different formats.
Indian dental academy provides dental crown & Bridge,rotary endodontics,fixed orthodontics,
Dental implants courses.for details pls visit www.indiandentalacademy.com ,or call
0091-9248678078
A STEP IN CASTING OF CAST PARTIAL DENTURE, a precious duplication process and proper wax up of refractory cast results in accurate fitting of the framework of the prosthesis.
The wax pattern is a precursor to the final cast restoration and must be fabricated precisely. There are two techniques for making wax patterns - direct and indirect. Various waxes are used depending on the type of restoration. For inlay patterns, the wax needs to flow easily when heated but be rigid when cool and carve precisely without distortion. The pattern is stored on the die and invested soon after fabrication. The die is prepared, relieved, and lubricated before pattern fabrication. Patterns are built up by adding wax for the coping, axial contours, emergence profile, occlusal morphology, and refined margins. Cusp-marginal ridge and cusp-fossa occlusal schemes are classified.
Journal Club Presentation on Overlay Removable Partial DentureNeerajaMenon4
Overlay removable partial dentures (ORPDs), a subset of overdentures, are often referred to as an RPD that has part of their components covering the occlusal surface of the abutment teeth to restore them into a functional occlusion
Indian Dental Academy: will be one of the most relevant and exciting training center with best faculty and flexible training programs for dental professionals who wish to advance in their dental practice,Offers certified courses in Dental implants,Orthodontics,Endodontics,Cosmetic Dentistry, Prosthetic Dentistry, Periodontics and General Dentistry.
Wax patterns fabrication for fixed partial denturesShebin Abraham
This document provides information on the principles and techniques for fabricating wax patterns for crowns and fixed dental prostheses using the lost wax technique. It discusses the prerequisites for wax patterns including correcting defects on dies, providing cement space, and marking margins. Details are given on materials used for wax patterns and different waxing techniques. The sequence of wax pattern fabrication is outlined including coping formation, evaluation, shaping proximal, axial, and occlusal surfaces, and finishing margins. Occlusal schemes and developing cusp-fossa and cusp-marginal ridge relationships during waxing are also described. The goal is to produce highly accurate wax patterns to result in well-fitting cast restorations.
Dental ceramics include porcelain and are used for dental restorations. Porcelain is made from a glass matrix containing mineral phases and feldspars. It is used for dental crowns, veneers, dentures, and other prosthetics. Porcelain has good biocompatibility and esthetics but is brittle. Metal-ceramic restorations combine a metal substructure with porcelain for strength. All-ceramic restorations are made entirely of ceramic materials and provide superior esthetics but require more tooth reduction. Common all-ceramic systems include machinable blocks, castable ceramics, pressable ceramics, and infiltrated glass ceramics.
Porcelains used in metal ceramics /certified fixed orthodontic courses by Ind...Indian dental academy
The Indian Dental Academy is the Leader in continuing dental education , training dentists in all aspects of dentistry and offering a wide range of dental certified courses in different formats.
Indian dental academy provides dental crown & Bridge,rotary endodontics,fixed orthodontics,
Dental implants courses.for details pls visit www.indiandentalacademy.com ,or call
0091-9248678078
A STEP IN CASTING OF CAST PARTIAL DENTURE, a precious duplication process and proper wax up of refractory cast results in accurate fitting of the framework of the prosthesis.
The wax pattern is a precursor to the final cast restoration and must be fabricated precisely. There are two techniques for making wax patterns - direct and indirect. Various waxes are used depending on the type of restoration. For inlay patterns, the wax needs to flow easily when heated but be rigid when cool and carve precisely without distortion. The pattern is stored on the die and invested soon after fabrication. The die is prepared, relieved, and lubricated before pattern fabrication. Patterns are built up by adding wax for the coping, axial contours, emergence profile, occlusal morphology, and refined margins. Cusp-marginal ridge and cusp-fossa occlusal schemes are classified.
Journal Club Presentation on Overlay Removable Partial DentureNeerajaMenon4
Overlay removable partial dentures (ORPDs), a subset of overdentures, are often referred to as an RPD that has part of their components covering the occlusal surface of the abutment teeth to restore them into a functional occlusion
Indian Dental Academy: will be one of the most relevant and exciting training center with best faculty and flexible training programs for dental professionals who wish to advance in their dental practice,Offers certified courses in Dental implants,Orthodontics,Endodontics,Cosmetic Dentistry, Prosthetic Dentistry, Periodontics and General Dentistry.
Wax patterns fabrication for fixed partial denturesShebin Abraham
This document provides information on the principles and techniques for fabricating wax patterns for crowns and fixed dental prostheses using the lost wax technique. It discusses the prerequisites for wax patterns including correcting defects on dies, providing cement space, and marking margins. Details are given on materials used for wax patterns and different waxing techniques. The sequence of wax pattern fabrication is outlined including coping formation, evaluation, shaping proximal, axial, and occlusal surfaces, and finishing margins. Occlusal schemes and developing cusp-fossa and cusp-marginal ridge relationships during waxing are also described. The goal is to produce highly accurate wax patterns to result in well-fitting cast restorations.
Dental ceramics include porcelain and are used for dental restorations. Porcelain is made from a glass matrix containing mineral phases and feldspars. It is used for dental crowns, veneers, dentures, and other prosthetics. Porcelain has good biocompatibility and esthetics but is brittle. Metal-ceramic restorations combine a metal substructure with porcelain for strength. All-ceramic restorations are made entirely of ceramic materials and provide superior esthetics but require more tooth reduction. Common all-ceramic systems include machinable blocks, castable ceramics, pressable ceramics, and infiltrated glass ceramics.
The document provides information on alloys used in prosthodontics. It begins with an introduction that defines an alloy as a mixture of two or more metals. It then provides a timeline of important events in the history of alloys used in dentistry. The document proceeds to discuss different types of metals used in alloys, including noble metals and base metals. It also covers topics such as solidification and crystallization of metals, phase diagrams, and heat treatments. Finally, it concludes by classifying different types of alloys and discussing their applications in dentistry.
Die and die materials/certified fixed orthodontic courses by Indian dental ac...Indian dental academy
The Indian Dental Academy is the Leader in continuing dental education , training dentists in all aspects of dentistry and
offering a wide range of dental certified courses in different formats.for more details please visit
www.indiandentalacademy.com
Dental Ceramics and Porcelain fused to metal isabel
This document discusses ceramics and porcelain fused to metal restorations. It describes the composition and properties of dental ceramics and porcelains, including feldspathic and aluminous porcelains. The applications and parts of porcelain fused to metal restorations are outlined. The benefits and drawbacks of metal-ceramic restorations are summarized. Requirements for the metal coping and bonding of porcelain to the coping are also summarized.
Metal free ceramics /certified fixed orthodontic courses by Indian dental aca...Indian dental academy
Welcome to Indian Dental Academy
The Indian Dental Academy is the Leader in continuing dental education , training dentists in all aspects of dentistry and offering a wide range of dental certified courses in different formats.
Indian dental academy has a unique training program & curriculum that provides students with exceptional clinical skills and enabling them to return to their office with high level confidence and start treating patients
State of the art comprehensive training-Faculty of world wide repute &Very affordable.
This document discusses different types of all-ceramic dental restorations, including their compositions and manufacturing techniques. It describes sintered ceramics like alumina and leucite-based materials, heat pressed ceramics like IPS Empress and lithium disilicate, slip cast ceramics like In-Ceram alumina and spinel, and machinable ceramics milled using CAD/CAM or copy milling. The advantages of all-ceramic restorations are also summarized, such as superior esthetics, biocompatibility, and bond strength compared to ceramic-metal restorations.
Recent advances in dental materials/dental crown &bridge course by Indian den...Indian dental academy
Indian Dental Academy: will be one of the most relevant and exciting training center with best faculty and flexible training programs for dental professionals who wish to advance in their dental practice,Offers certified courses in Dental implants,Orthodontics,Endodontics,Cosmetic Dentistry, Prosthetic Dentistry, Periodontics and General Dentistry.
The Indian Dental Academy is the Leader in continuing dental education , training dentists in all aspects of dentistry and
offering a wide range of dental certified courses in different formats.for more details please visit
www.indiandentalacademy.com
The document discusses ceramics used in dentistry, including their history, classification, composition, strengthening mechanisms, properties, shade matching guidelines, and fabrication of metal ceramic and all-ceramic dental restorations. Ceramics are classified based on their composition, processing methods, translucency, and firing temperature. Their fabrication involves metal preparation, condensation of ceramic powder layers, and firing to form a durable bond between ceramic and metal components.
This document discusses metal-free ceramics used in dentistry. It provides definitions of various types of ceramics like feldspathic porcelain, glass ceramics, and zirconia. The document discusses the history, classification, composition, properties and strengthening techniques of ceramics. It also compares different metal-free ceramic systems and discusses their clinical applications and cementation.
11.complete denture wax‐up and flasking procedureshammasm
This document discusses the process of waxing up dentures and flasking them for acrylic resin processing. It describes criteria for waxing the upper and lower dentures, including contouring the wax base and arranging the teeth. The flasking process involves investing the wax dentures and casts in dental stone in a flask, followed by wax elimination and packing of the flask with acrylic resin. The flask then undergoes polymerization cycling by heating in a water bath to cure the resin into the final denture bases.
This document provides an overview of Gothic arch tracing techniques used to record centric relation. It defines key terms and discusses the history and evolution of graphic recording methods from early needle point tracings to modern extraoral and intraoral tracers that produce Gothic arch tracings. The conventional extraoral technique is described in 12 steps, from mounting the tracers to making centric and protrusive plaster records. Intraoral tracings are noted to be smaller and harder to observe during tracing compared to extraoral methods.
The document discusses the process of investing and casting dental restorations, including the steps of investing wax patterns, burnout of the patterns to create molds, and casting molten alloys into the molds. It describes the requirements and mechanisms for investments to properly expand molds to compensate for alloy shrinkage during solidification. Details are provided on techniques, materials, and armamentarium for investing patterns using gypsum-bonded and phosphate-bonded investments.
8 - setting of teeth for class I, II and II arch relation ship (Edited)Amal Kaddah
Prosthetic Problems and possible solutions in Setting –up
of teeth for skeletal Class II and Class III arch relationship
of completely edentulous patients
Prof. Amal F. Kaddah
brief description about pressable ceramicsCONTENTS: • Introduction • Definition For Dental Ceramics • Definition For Pressable Ceramics • History • Various All Ceramic Systems • Classification • Pressable Ceramics • History • Generation Of Pressable Ceramics • Cerestore – Development Fabrication Advantage Disadvantage 2
3. IPS Empress - Materials And Composition Special Furnace Fabrication Advantage Disadvantage IPS Empress 2- INDICATION Properties Fabrication Method Advantage Disadvantage IPS Emax Press - Microstructure Composition Properties OPC 3G- Development Indication Properties 3
4. INTRODUCTION There have been significant TECHNOLOGICAL advances in the field of dental ceramics over the last 10 years which have made a corresponding increase in the number of materials available. Improvements in strength, clinical performance, and longevity have made all ceramic restorations more popular and more predictable 4
5. DEFINITION FOR DENTAL CERAMICS⁶ An inorganic compound with non metallic properties typically consisting of oxygen and one or more metallic or semi metallic elements (e.g ;Aluminium, Calcium, Lithium, Mangnesium, Potassium, Sodium, Silicon, Tin , Titanium And Zirconium)that is formulated to produce the whole or part of a ceramic based dental prosthesis 5
6. DEFINITION FOR PRESSABLE CERAMICS ⁶ • A ceramic that can be heated to a specified temperature and forced under pressure to fill a cavity in a refractory mold 6
7. HISTORY OF DENTAL CERAMICS ⁶ • 1789-first porcelain tooth material by a French dentist De Chemant • 1774- mineral paste teeth by Duchateau in England • 1808-terrometallic porcelain teeth by Italian dentist Fonzi • 1817- Planteu introduced porcelain teeth in US • 1837- Ash developed improved version of porcelain teeth 7
8. • 1903 – Dr.Charless introduced ceramic crowns in dentistry he fabricate ceramic crown using platinum foil matrix and high fusing feldspathic porcelain excellent esthetics but low flexural strength resulted in failure • 1965- dental aluminous core Porcelain by Mclean and Huges • 1984- Dicor by Adair and Grossman 8
9. 9
10. VARIOUS ALL CERAMIC SYSTEMS Aluminous core ceramics Slip cast ceramics Heat pressed ceramics Machined ceramics Machined and sintered ceramics Metal reinforced system 10
11. MICROSTRUCTURAL CLASSIFICATION⁵ Category 1: Glass-based systems (mainly silica) Category 2: Glass-based systems (mainly silica) with fillers usually crystalline (typically leucite or a different high-fusing glass) a) Low-to-moderate leucite-
This document provides an overview of porcelain laminate veneers. It defines veneers, discusses their history and development, and outlines their indications and contraindications. It describes different types of veneers based on the extent of preparation, materials used, and mode of fabrication. Ideal requirements for veneers and clinical considerations for case selection and tooth preparation are covered. The document outlines procedures for preparation design, impression taking, temporization, and laboratory techniques. Placement, patient instruction, potential failures, and conclusions are also summarized.
This document discusses CAD/CAM technology in dentistry. It begins with a brief history of CAD/CAM, including pioneers in the field. It then describes the workflow of CAD/CAM, which involves tooth preparation, material selection, digital scanning, design and milling of restorations, glazing/crystallization, cementation, and other restorative applications. Common CAD/CAM materials include feldspathic ceramics, nano-ceramics, lithium disilicate, and zirconia blocks. Guidelines are provided for each step of the CAD/CAM process to ensure optimal restorations.
Failures in Fixed Partial Denture
(Prosthodontics FPD- Dental science)
Various types of failures in the fabrication of fixed partial denture
Dr.Sachin Sunny Otta
St.Gregorios Dental College,Kothamangalam,Ernakulam
Indian Dental Academy: will be one of the most relevant and exciting training center with best faculty and flexible training programs for dental professionals who wish to advance in their dental practice,Offers certified courses in Dental implants,Orthodontics,Endodontics,Cosmetic Dentistry, Prosthetic Dentistry, Periodontics and General Dentistry.
The Indian Dental Academy is the Leader in continuing dental education , training dentists in all aspects of dentistry and
offering a wide range of dental certified courses in different formats.for more details please visit
www.indiandentalacademy.com
This document discusses the process of fabricating porcelain for dental crowns. It begins with an introduction and overview of porcelain in dentistry. It then describes in detail the conventional method for applying and building up porcelain on a metal substructure in multiple firing stages. This includes applying opaque, body and incisal layers to achieve proper contours and characterization. The document also discusses indications, contraindications and techniques for internal characterization, glazing, staining and creating collarless crowns.
The document provides information on alloys used in prosthodontics. It begins with an introduction that defines an alloy as a mixture of two or more metals. It then provides a timeline of important events in the history of alloys used in dentistry. The document proceeds to discuss different types of metals used in alloys, including noble metals and base metals. It also covers topics such as solidification and crystallization of metals, phase diagrams, and heat treatments. Finally, it concludes by classifying different types of alloys and discussing their applications in dentistry.
Die and die materials/certified fixed orthodontic courses by Indian dental ac...Indian dental academy
The Indian Dental Academy is the Leader in continuing dental education , training dentists in all aspects of dentistry and
offering a wide range of dental certified courses in different formats.for more details please visit
www.indiandentalacademy.com
Dental Ceramics and Porcelain fused to metal isabel
This document discusses ceramics and porcelain fused to metal restorations. It describes the composition and properties of dental ceramics and porcelains, including feldspathic and aluminous porcelains. The applications and parts of porcelain fused to metal restorations are outlined. The benefits and drawbacks of metal-ceramic restorations are summarized. Requirements for the metal coping and bonding of porcelain to the coping are also summarized.
Metal free ceramics /certified fixed orthodontic courses by Indian dental aca...Indian dental academy
Welcome to Indian Dental Academy
The Indian Dental Academy is the Leader in continuing dental education , training dentists in all aspects of dentistry and offering a wide range of dental certified courses in different formats.
Indian dental academy has a unique training program & curriculum that provides students with exceptional clinical skills and enabling them to return to their office with high level confidence and start treating patients
State of the art comprehensive training-Faculty of world wide repute &Very affordable.
This document discusses different types of all-ceramic dental restorations, including their compositions and manufacturing techniques. It describes sintered ceramics like alumina and leucite-based materials, heat pressed ceramics like IPS Empress and lithium disilicate, slip cast ceramics like In-Ceram alumina and spinel, and machinable ceramics milled using CAD/CAM or copy milling. The advantages of all-ceramic restorations are also summarized, such as superior esthetics, biocompatibility, and bond strength compared to ceramic-metal restorations.
Recent advances in dental materials/dental crown &bridge course by Indian den...Indian dental academy
Indian Dental Academy: will be one of the most relevant and exciting training center with best faculty and flexible training programs for dental professionals who wish to advance in their dental practice,Offers certified courses in Dental implants,Orthodontics,Endodontics,Cosmetic Dentistry, Prosthetic Dentistry, Periodontics and General Dentistry.
The Indian Dental Academy is the Leader in continuing dental education , training dentists in all aspects of dentistry and
offering a wide range of dental certified courses in different formats.for more details please visit
www.indiandentalacademy.com
The document discusses ceramics used in dentistry, including their history, classification, composition, strengthening mechanisms, properties, shade matching guidelines, and fabrication of metal ceramic and all-ceramic dental restorations. Ceramics are classified based on their composition, processing methods, translucency, and firing temperature. Their fabrication involves metal preparation, condensation of ceramic powder layers, and firing to form a durable bond between ceramic and metal components.
This document discusses metal-free ceramics used in dentistry. It provides definitions of various types of ceramics like feldspathic porcelain, glass ceramics, and zirconia. The document discusses the history, classification, composition, properties and strengthening techniques of ceramics. It also compares different metal-free ceramic systems and discusses their clinical applications and cementation.
11.complete denture wax‐up and flasking procedureshammasm
This document discusses the process of waxing up dentures and flasking them for acrylic resin processing. It describes criteria for waxing the upper and lower dentures, including contouring the wax base and arranging the teeth. The flasking process involves investing the wax dentures and casts in dental stone in a flask, followed by wax elimination and packing of the flask with acrylic resin. The flask then undergoes polymerization cycling by heating in a water bath to cure the resin into the final denture bases.
This document provides an overview of Gothic arch tracing techniques used to record centric relation. It defines key terms and discusses the history and evolution of graphic recording methods from early needle point tracings to modern extraoral and intraoral tracers that produce Gothic arch tracings. The conventional extraoral technique is described in 12 steps, from mounting the tracers to making centric and protrusive plaster records. Intraoral tracings are noted to be smaller and harder to observe during tracing compared to extraoral methods.
The document discusses the process of investing and casting dental restorations, including the steps of investing wax patterns, burnout of the patterns to create molds, and casting molten alloys into the molds. It describes the requirements and mechanisms for investments to properly expand molds to compensate for alloy shrinkage during solidification. Details are provided on techniques, materials, and armamentarium for investing patterns using gypsum-bonded and phosphate-bonded investments.
8 - setting of teeth for class I, II and II arch relation ship (Edited)Amal Kaddah
Prosthetic Problems and possible solutions in Setting –up
of teeth for skeletal Class II and Class III arch relationship
of completely edentulous patients
Prof. Amal F. Kaddah
brief description about pressable ceramicsCONTENTS: • Introduction • Definition For Dental Ceramics • Definition For Pressable Ceramics • History • Various All Ceramic Systems • Classification • Pressable Ceramics • History • Generation Of Pressable Ceramics • Cerestore – Development Fabrication Advantage Disadvantage 2
3. IPS Empress - Materials And Composition Special Furnace Fabrication Advantage Disadvantage IPS Empress 2- INDICATION Properties Fabrication Method Advantage Disadvantage IPS Emax Press - Microstructure Composition Properties OPC 3G- Development Indication Properties 3
4. INTRODUCTION There have been significant TECHNOLOGICAL advances in the field of dental ceramics over the last 10 years which have made a corresponding increase in the number of materials available. Improvements in strength, clinical performance, and longevity have made all ceramic restorations more popular and more predictable 4
5. DEFINITION FOR DENTAL CERAMICS⁶ An inorganic compound with non metallic properties typically consisting of oxygen and one or more metallic or semi metallic elements (e.g ;Aluminium, Calcium, Lithium, Mangnesium, Potassium, Sodium, Silicon, Tin , Titanium And Zirconium)that is formulated to produce the whole or part of a ceramic based dental prosthesis 5
6. DEFINITION FOR PRESSABLE CERAMICS ⁶ • A ceramic that can be heated to a specified temperature and forced under pressure to fill a cavity in a refractory mold 6
7. HISTORY OF DENTAL CERAMICS ⁶ • 1789-first porcelain tooth material by a French dentist De Chemant • 1774- mineral paste teeth by Duchateau in England • 1808-terrometallic porcelain teeth by Italian dentist Fonzi • 1817- Planteu introduced porcelain teeth in US • 1837- Ash developed improved version of porcelain teeth 7
8. • 1903 – Dr.Charless introduced ceramic crowns in dentistry he fabricate ceramic crown using platinum foil matrix and high fusing feldspathic porcelain excellent esthetics but low flexural strength resulted in failure • 1965- dental aluminous core Porcelain by Mclean and Huges • 1984- Dicor by Adair and Grossman 8
9. 9
10. VARIOUS ALL CERAMIC SYSTEMS Aluminous core ceramics Slip cast ceramics Heat pressed ceramics Machined ceramics Machined and sintered ceramics Metal reinforced system 10
11. MICROSTRUCTURAL CLASSIFICATION⁵ Category 1: Glass-based systems (mainly silica) Category 2: Glass-based systems (mainly silica) with fillers usually crystalline (typically leucite or a different high-fusing glass) a) Low-to-moderate leucite-
This document provides an overview of porcelain laminate veneers. It defines veneers, discusses their history and development, and outlines their indications and contraindications. It describes different types of veneers based on the extent of preparation, materials used, and mode of fabrication. Ideal requirements for veneers and clinical considerations for case selection and tooth preparation are covered. The document outlines procedures for preparation design, impression taking, temporization, and laboratory techniques. Placement, patient instruction, potential failures, and conclusions are also summarized.
This document discusses CAD/CAM technology in dentistry. It begins with a brief history of CAD/CAM, including pioneers in the field. It then describes the workflow of CAD/CAM, which involves tooth preparation, material selection, digital scanning, design and milling of restorations, glazing/crystallization, cementation, and other restorative applications. Common CAD/CAM materials include feldspathic ceramics, nano-ceramics, lithium disilicate, and zirconia blocks. Guidelines are provided for each step of the CAD/CAM process to ensure optimal restorations.
Failures in Fixed Partial Denture
(Prosthodontics FPD- Dental science)
Various types of failures in the fabrication of fixed partial denture
Dr.Sachin Sunny Otta
St.Gregorios Dental College,Kothamangalam,Ernakulam
Indian Dental Academy: will be one of the most relevant and exciting training center with best faculty and flexible training programs for dental professionals who wish to advance in their dental practice,Offers certified courses in Dental implants,Orthodontics,Endodontics,Cosmetic Dentistry, Prosthetic Dentistry, Periodontics and General Dentistry.
The Indian Dental Academy is the Leader in continuing dental education , training dentists in all aspects of dentistry and
offering a wide range of dental certified courses in different formats.for more details please visit
www.indiandentalacademy.com
This document discusses the process of fabricating porcelain for dental crowns. It begins with an introduction and overview of porcelain in dentistry. It then describes in detail the conventional method for applying and building up porcelain on a metal substructure in multiple firing stages. This includes applying opaque, body and incisal layers to achieve proper contours and characterization. The document also discusses indications, contraindications and techniques for internal characterization, glazing, staining and creating collarless crowns.
Indian Dental Academy: will be one of the most relevant and exciting training center with best faculty and flexible training programs for dental professionals who wish to advance in their dental practice,Offers certified courses in Dental implants,Orthodontics,Endodontics,Cosmetic Dentistry, Prosthetic Dentistry, Periodontics and General Dentistry.
Condensation and firing in porcealin /certified fixed orthodontic courses by ...Indian dental academy
The Indian Dental Academy is the Leader in continuing dental education , training dentists in all aspects of dentistry and offering a wide range of dental certified courses in different formats.
Indian dental academy provides dental crown & Bridge,rotary endodontics,fixed orthodontics,
Dental implants courses.for details pls visit www.indiandentalacademy.com ,or call
0091-9248678078
Este documento describe los diferentes lugares de trabajo de un laboratorio dental, incluyendo áreas para trabajar con yeso, cera, acrílico, metal y libre de metal. Se muestran fotografías de maquinaria y equipos utilizados para mezclar yeso, pulir modelos, trabajar cera y acrílico, arenar y pulir piezas metálicas, y escanear y trabajar libre de metal. El laboratorio cuenta con las herramientas necesarias para realizar modelos de estudio, provisionales y carillas dentales.
Porcelines used in metal ceramics /certified fixed orthodontic courses by Ind...Indian dental academy
Welcome to Indian Dental Academy
The Indian Dental Academy is the Leader in continuing dental education , training dentists in all aspects of dentistry and offering a wide range of dental certified courses in different formats.
Indian dental academy has a unique training program & curriculum that provides students with exceptional clinical skills and enabling them to return to their office with high level confidence and start treating patients
State of the art comprehensive training-Faculty of world wide repute &Very affordable
The document provides information on metal-ceramic crowns, including:
- Metal-ceramic crowns consist of a cast metal substructure veneered with porcelain, combining strength and esthetics. Significant tooth reduction is required for the porcelain.
- The preparation involves placing guiding grooves, reducing the incisal edge/occlusion, and reducing the facial, proximal, and lingual surfaces. A minimum of 1.2mm of space is needed for the materials.
- The process aims to provide adequate thickness for the porcelain for esthetics while maintaining retention, resistance form, and a path of withdrawal.
This document summarizes various dental materials used in dentistry, including their composition, functions, and preparation procedures. It discusses bases, dentin bonding agents, temporary filling materials, impression materials, restorative resins, amalgam, material safety, and precious metal recovery programs. For each material, it identifies their uses, characteristics, and step-by-step preparation instructions to ensure their proper use in treating patients.
The Indian Dental Academy is the Leader in continuing dental education , training dentists in all aspects of dentistry and
offering a wide range of dental certified courses in different formats.for more details please visit
www.indiandentalacademy.com
Indian Dental Academy: will be one of the most relevant and exciting training
center with best faculty and flexible training programs for dental
professionals who wish to advance in their dental practice,Offers certified
courses in Dental implants,Orthodontics,Endodontics,Cosmetic Dentistry,
Prosthetic Dentistry, Periodontics and General Dentistry.
The document discusses dental ceramics, including their history, structure, composition, and classification. Some key points:
- Dental ceramics have been used since ancient times, with early developments including porcelain teeth in the late 18th century. Major advances included reinforced porcelains in the 1960s and all-ceramic systems in the 1980s-1990s.
- Ceramics can be crystalline or non-crystalline (glass). Dental ceramics are mainly composed of crystalline minerals and a glass matrix. Common components include feldspar, silica, kaolin, and glass modifiers.
- Ceramics are classified as non-crystalline or crystalline, with fel
Dental ceramics/ rotary endodontic courses by indian dental academyIndian dental academy
Indian Dental Academy: will be one of the most relevant and exciting training center with best faculty and flexible training programs for dental professionals who wish to advance in their dental practice,Offers certified courses in Dental implants,Orthodontics,Endodontics,Cosmetic Dentistry, Prosthetic Dentistry, Periodontics and General Dentistry.
This document discusses dental ceramics. It defines ceramics as inorganic, non-metallic materials that are crystalline in nature and formed from compounds of metallic and nonmetallic elements. Dental ceramics are characterized by properties like biocompatibility, esthetic potential, hardness, and chemical inertness. They can be crystalline or amorphous and are classified based on factors like firing temperature, processing method, and microstructure. Common types used in dentistry include feldspathic porcelain, aluminous porcelain, and glass ceramics. Dental ceramics have various applications and are indicated for uses like crowns, veneers, and fixed dental prostheses depending on their composition and properties.
The document discusses dental ceramics, providing information on their history, structure, composition, properties, classification and applications. Some key points include:
- Dental ceramics are inorganic, non-metallic materials made of metal and nonmetal compounds like alumina and zirconia.
- Their structure can be crystalline, non-crystalline, or a combination of both. Composition includes feldspar, silica, kaolin and glass modifiers.
- Properties include biocompatibility, hardness, strength and being thermal insulators. Applications include crowns, veneers, inlays and bridges. Different ceramics are used depending on the location and stresses in the mouth.
Recent advances in dental porcelain materials / cosmetic dentistry coursesIndian dental academy
Ceramic materials have a long history dating back thousands of years. Modern dental ceramics are used for restorations like crowns, veneers, and inlays. They have excellent aesthetics and biocompatibility but are brittle. Techniques have been developed to strengthen dental ceramics, including using metal substructures, incorporating crystalline phases, thermal treatment to induce compressive stresses, and designs that minimize tensile stresses. Composition and processing of dental ceramics have continually evolved to improve strength, translucency, and fit.
This document provides an overview of dental ceramics, including their history, classification, composition, properties, and methods of strengthening. It discusses the basic components of dental porcelain, including feldspar, kaolin, silica, and other additives. The document also covers various classification schemes for dental ceramics based on their content, use, processing method, firing temperature, and microstructure. Strengthing methods like ion exchange, thermal tempering, and disrupting crack propagation are described.
This document provides a detailed history and overview of dental ceramics. It discusses the origins and composition of different types of ceramics used in dentistry like feldspathic porcelain, leucite-reinforced porcelain, and aluminous porcelain. The document also outlines the various methods used to classify and fabricate dental ceramics, including processes like condensation and sintering, casting and ceramming, machining, pressure molding, and glass infiltration. Key developments in the history of using ceramics in dentistry are highlighted from the 1700s to present day.
This document discusses dental ceramics and their use and processing in dentistry. It begins by providing background on the history and early uses of ceramics. It then defines ceramics and classifies them according to their composition, use, processing method, and other properties. The remainder of the document discusses the properties of dental ceramics, their uses in dentistry, processing methods, and ways to strengthen ceramics including developing residual compressive stresses and minimizing tensile stresses through design.
Metal free ceramics /certified fixed orthodontic courses by Indian dental aca...Indian dental academy
This document provides information on metal-free ceramics used in dentistry. It defines ceramics as compounds containing metals and nonmetals like oxygen. Porcelain is a ceramic material formed from infusible elements joined by lower-fusing materials. All-ceramic restorations without metal substructures have better esthetics than metal-ceramic options. The document discusses the history and development of dental ceramics from the 18th century to modern systems. It also classifies and describes different ceramic types like feldspathic porcelain, alumina, and glass ceramics as well as processing methods.
Metal free ceramics /certified fixed orthodontic courses by Indian dental aca...Indian dental academy
This document discusses various types of dental ceramics, including their composition, properties and uses. It describes porcelain and glass ceramics, noting that porcelain is a ceramic material formed from infusible elements joined by lower fusing material. The document outlines the history of dental ceramics and provides classifications including types, uses, processing methods and substructure materials. It also compares metal ceramics to all-ceramic systems, discussing advantages and disadvantages of each.
This document discusses various types of dental ceramics, including their composition, properties and uses. It describes porcelain and glass ceramics, noting that porcelain is formed from infusible elements joined by lower fusing material. The history of dental ceramics is reviewed from early uses of human, animal and ivory teeth to modern porcelain and glass formulations. Advantages of all-ceramic restorations over metal-ceramic are listed. Classification systems for dental ceramics include type, use, processing method and substructure material. Properties like strength and factors affecting it are also covered.
The document discusses dental ceramics and provides information on their history, composition, classification, and applications. Key points include:
- Ceramics are inorganic compounds consisting of oxygen and metallic/semimetallic elements used to make dental prosthetics.
- Their composition typically includes feldspar, silica, kaolin, and alumina, with glass modifiers and opacifiers added.
- Ceramics can be classified based on firing method/temperature, type of material, and microstructure.
- Common ceramic systems include metal-ceramic and all-ceramic, with the former using a metal substructure and the latter being made entirely of ceramic.
1. Ceramics are inorganic, non-metallic materials made by heating materials like clay and feldspar at high temperatures.
2. The document discusses the history, structure, properties and classifications of dental ceramics.
3. It describes the advantages of ceramics in dentistry like biocompatibility and esthetics, and disadvantages like brittleness.
This document discusses the history and classification of dental ceramics. It begins with definitions of ceramics and discusses Greek and Sanskrit origins of the word. It then categorizes dental ceramics according to their use, firing temperature, processing method, microstructure, composition, translucency, and application. The document provides a historical perspective on the development of dental ceramics from ancient times to modern CAD/CAM systems. It also covers the composition, properties, advantages, and disadvantages of various dental ceramics.
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Dental ceramics are used in a variety of dental applications including inlays, onlays, crowns, bridges, veneers, denture teeth, and orthodontic brackets. They are classified based on firing temperature, type of material, use, and processing method. The basic constituents of feldspathic porcelain include feldspar, kaolin, quartz, alumina, glass modifiers, color pigments, and opacifiers. A ceramic restoration consists of a core for strength and support and a veneer to improve aesthetics. Ceramic systems are classified based on the core material as metal-ceramic or all-ceramic restorations.
The document discusses dental ceramics, including their uses and applications in dental restorations. It describes the classification of dental porcelains according to firing temperature and type. It also summarizes the basic constituents of feldspathic porcelain, including feldspar, kaolin, quartz, alumina, and opacifiers. The manufacturing process involves blending ceramic powders and a binder.
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9
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Metal ceramics /certified fixed orthodontic courses by Indian dental academy
1. METAL CERAMICS
INDIAN DENTAL ACADEMY
Leader in continuing dental education
www.indiandentalacademy.com
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2. 1.HISTORY.
2. TERMINOLOGY.
3. CHEMISTRY & COMPOSITION.
4. ALLOYS FOR THE METAL CERAMICS.
5.TOOTH PREPARATION FOR THE METAL
CERAMIC RESTORATION.
6. METAL CERAMIC SUB STRUCTURE DESIGN.
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3. 7. FUNDAMENTALS OF THE SPRUING,
INVESTING&CASTING.
8. BONDING BETWEEN THE METAL
&POCELAIN.
9. SOLDERING &FINISHING OF THE
METAL SUB STRUCTURE
10. PORCELAIN APPLICATION METHODS
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5. Chinese were the first to introduce porcelain in
1000A.D.
D’Entrecolles is first person to use porcelains in
the dentistry.
Dental porcelains were used first to fabricate the
complete dentures.
The technology for the metal ceramics introduced
in 1950’s
Dechaeteau 1985 was the first person to make a
pair of complete dentures for himself.
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6. Italians in 1808 made porcelain teeth.
Claudius Ash 1985 created an artificial tooth that
could be placed over the complete dentures & fixed
partial dentures.
Land Went 1985 developed low fusing porcelains
& porcelain jacket crown
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7. TERMINOLOGY:METAL CERAMIC RESTORATION:-A fixed
restoration that employs a metal substructure on
which a ceramic veneer is fused.
ALLOY:-A mixture of two or more metals that are
mutually soluble in the molten state, distinguished
as binary,tertnary,quaternary.
NOBLE METAL:-A term applied to metal that are
corrosion and oxidation resistant because of
inherent chemical inertness. (Craig 1989)
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8. There are at least seven noble metals used in
dentistry.Gold,Platinum,Palladium,Iridium,Osmium,
Rhodium,Ruthenium & Silver.
NON NOBLE:-Alloys that composed of metal that are not
noble.
E.g.:-nickel,chromium,cobalt & aluminum.
COPING:-A term used to describe the metal sub structure.
DEGASSING:-A term used to describe the process of
heating a metal structure believed to release entrapped
gases and burn off organic surface impurities.
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9. OXIDATION:-The
process of heat treating a
metal ceramic alloy to produce an oxide layer
for porcelain bonding.
OXIDE
LAYER:-The colored film that forms on
a metal ceramic alloy after the metal has been
heated .
VACCUM
FIRING:-The firing of dental
porcelain in a furnace in which the air or
atmosphere in order to create denser porcelain
restoration.
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10. COMPONENTS OF METAL CERAMIC
RESTORATION
1.METAL SUB STRUCTURE
.
2.THE OXIDE LAYER.
3.THE OPAQUE PORCELAIN LAYER.
4.THE DENTIN PORCELAIN.
5.THE ENAMEL PORCELAIN.
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6.THE EXTERNAL GLAZE.
11. CHEMISTRY OF THE DENTAL
PORCELAIN
The
chemical components of the porcelain: 1.Feldspar:-feldspar is the primarily responsible
to the glass matrix.
It occurs in a pure form but is a mix of two
substances.
Potassium aluminum silicate & sodium
aluminum silicate.
This is also called as albite.
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12. Potassium
feldspar:-it adds translucent qualities
to fired restorations.
When
melted between 2280°c to 2730°c potash
fuses with the kaolin & quartz to become glass
The
potash form of feldspar increases the
viscosity & controls the pyroplastic flow of the
porcelain.
Sodium
feldspar:-lowers the fusion temperature
of the porcelain.
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13. QUARTZ:
This
has high fusion temperature and serves as a
frame work around the other ingredients can flow.
It
helps to prevent the porcelain build up from
slumping on the metal substructure by stabilizing
the mass at high temperature
Quartz
also strengthen the porcelains.
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14. ALUMINA
It
is considered as hardest & strongest
oxide.
Its
CTE is similar to the low fusing
porcelains.
It
also strengthens the porcelain.
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15. KAOLIN: This
particular ingredient of the porcelain is
clay.
This
is formed from the igneous rock
containing alumina.
It
is not include in the enamel porcelains
because of the opaque character of the kaolin.
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16. BASIC COMPONENTS
The
basic components of a traditional porcelain
kit include 1.opaque porcelain.
2.dentin porcelains
3.enamel porcelains
Modifiers,stains &glazes.
Newest
products has high fusing shoulder
porcelains.
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18. OPAQUE
PORCELAINS:These porcelains made opaque by the addition of
the insoluble oxides like,
Tin.
Titanium.
Zirconium.
Cerium oxides.
Such oxides have high refractive,so they scatter
light.
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19. The opaque layer serves three primary functions:1.It masks the color of the metal substructure.
2.It wets the metal surface &establishes the metal
porcelain bonding.
3.It initiates the development of the selected
shade.
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20. DENTIN PORCELAINS
The dentin porcelains correspond to the dentin of
the natural teeth.
The dentin porcelain is the major component of the
porcelain restoration.
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21. ENAMEL PORCELAIN
Enamel porcelains are more translucent than dentin
porcelains.
The enamel porcelains are usually in the violet to
grayish range &impart a combination of true
translucency & the illusion of the translucency by
virtue of their grayish or some times bluish
appearance.
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22. TRANSLUCENT PORCELAIN
Translucent porcelains are not transparent.they do
not allow the transmission of all lights.
They are applied as a veneer over nearly the entire
surface of the typical porcelain build up.
The translucent enamel imparts the depth & enamel
like translucency without substantially altering the
body shade that is being overlaid
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23. BODY MODIFIERS
These porcelains are more color concentrated &
were designed to aid in the achieving internal color
modifications.
They are used to distinguish the
dentin,enamel&translucent porcelains,because they
have the same basic physical &chemical
properties.
All these powders are basically same
materials,they do differ in the appearance because
of the modifiers.
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24. STAINS & GLAZES
Stain powders contain less silica or alumina &more
sodium &potassium oxides.
They contain high concentration of metallic oxides.
They are created by mixing the metallic oxides
with lower fusion point glasses
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25. Glazes are generally colorless,low fusing
porcelains.
They possess considerable fluidity at high
temperatures.
They fill small surface porosities &
irregularities.when fired helps to recreate the
external glazy appearance of the natural tooth
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26. ALLOYS FOR THE METAL
CERAMICS
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27. REQUIREMENTS.
(skinners 10th &Naylor's)
CLASSIFICATION.
A)BASED
ON COLOR & COMPOSITION.
B)BASED ON FUNCTION.
C)AN ALTERNATIVE CLASSIFICATION.
D)ADA CLASSIFICATION.
DIFFERENT
CONSTITUENTS &THEIR ROLE
DIFFERENT
ALLOY SYSTEMS THEIR
ADVANTAGES & DISADVANTAGES
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28. Requirements of the alloys:1.A ceramic alloy must be able to produce surface
oxides for chemical bonding with dental porcelain.
2.A metal ceramic alloy should be formulated so its
coefficient of thermal expansion is slightly greater
than that of the porcelain veneer to maintain the
metal porcelain attachment.Even though oxides
form & and the metal chemically bonds to the
porcelain,fracture of the ceramic veneer may occur
if the metal & the porcelain are not thermally
compatible.
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29. The alloy must have melting range considerably
higher than the fusing range of the dental
porcelain fired on to it.
The alloy must not under go distortion at the the
firing temperatures of the porcelain.
The first four requirements must be balanced with
technicians need for ease of handling.
A casting alloy should be biocompatible.
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30. CLASSIFICATION OF THE DENTAL
CASTING ALLOYS
They are classified based on :1.Alloy classification based on function.
2.Alloy classification based on color
&composition.
3.The ADA classification for cast alloys.
4.An alternative classification system for metal
ceramic alloys.
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31. CLASSIFICATION BASED ON
FUNCTION
One of the oldest & simplest methods used to
categorize casting alloys was devised by the
NATIONAL BUREAU OF STANDARDS IN
1932.
The gold based crown & bridge metals of that time
were organized according to function into only
four categories & described type1,2,3,or4alloys
Alloys in each classification or type were arranged
based on their gold &platinum group composition
as well as the associated VHN.
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32.
TYPE –1– SOFT.--- USED FOR THE SMALL
INLAYS
TYPE –2– MEDIUM.--- USED FOR THE
THREE QUARTER CROWN,THIN
BACKINGS.
TYPE
–3– HARD.--- USED FOR THE FULL
CROWNS, ABUTMENTS & PONTICS.
TYPE –4—EXTRA HARD---DENTURE BASE
BARS,PARTIAL DENTURE FRAME WORK,
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LONG SPAN FIXED PARTIAL DENTURE.
33. ALLOY CALSSIFICATION BASED
ON COLOR &COMPOSITION
A second method of classification is to describe
alloys according to their color & principal element.
1.Yellow golds:- yellow color,greater than 60% of
the gold content.
2.White golds:-white color but more than 50%of
the gold content.
3.Low golds:-usually yellow colored with less than
60%of the gold.
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34. High palladium:-white colored ,with palladium the
major component.also contains small amount of
gold &copper,cobalt.
Silver- palladium:-white colored predominantly
silver with substantial amounts of the palladium to
provide nobility &to help control tarnish.
Palladium- silver :-white colored with palladium
the major component ,plus substantial component
of silver.
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35. ADA CLASSIFICATION
In 1984 ADA prepared a new classification for
cast alloys.
The system was devised for the identification in
dental procedure codes,where the intrinsic value
of the metals in the castings provided to patient
would influence the amount of reimbursement
from insurance carriers.
This system of the classification was not intended
to indicate usage or performance levels.
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36. ADA CLASSIFICATION
HIGH
NOBLE:CONTAINS 40% GOLD,60%
OF THE NOBLE METALS.(Au-Ir-Os-Pt-Ru)
NOBLE
METAL:CONTAINS 25% OF THE
NOBLE METAL ELEMENTS.
PREDOMINANTLY
BASE
METAL:CONTAINS LESS THAN 25% OF
THE NOBLE METAL ELEMENTS.
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37. AN ALTERNATIVE CLASSIFICATON
SYSTEM
With this method the alloys are classified based on
composition & level of the constituent of the
major content.
The alloys are first divided into two groups,
1.Noble metal
2.Non noble metals.
Each system further divided into constituent
groups.
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38. THE ROLE OF DIFFERENT
CONSTITUENT ELEMENTS
Aluminum:-lowers
the melting range of the
nickel based alloys.
It acts as a hardening agent.
It influences the oxide layer formation.
With cobalt chromium alloys used for the metal
ceramic restoration, aluminum is one of the
element that is etched from the alloy surface to
create micro mechanical retention for resin
bonded retainers.
Melting range:660 degree centigrade; CTEwww.indiandentalacademy.com
o.236
39. IRON: Iron
is added to some gold based porcelain for
hardening & oxide production.
Melting range:1527degree centigrade; CTE0.123
NICKEL:-it
is base for the porcelain alloys.
Its CTE similar to the gold
It provides resistance to corrosion.
Melting range:1453degrees; CTE-0.133.
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40. PALLADIUM: Palladium
added to increase the corrosion,
strength,hardness,tarnish resistance of the gold
based alloys.
It increases the melting temperature.
Improves the sag resistance.
M.T.-1552; CTE-0.0188
PLATINUM:-It increases the strength,hardness,of
the gold based alloys.
It improves the corrosion,tarnish &sag resistance.
It improves the density of the gold & non gold based
alloys.
M.T.-1769; CTE-0.089
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41. SILICON: Silicon
primarily as an oxide scavenger.
It also act as a hardening agent.
M.T.-1410; CTE-0.073.
SILVER: It
lowers the melting range,improves the
fluidity,&helps to control the CTE.
It has high affinity for the oxygen, which can lead to
the porosity&gassing of the casting.
It is not universally regarded as noble in the oral
cavity.
M.T.-960.8; CTE– 0.197.
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42. TIN: Tin
is the hardening agent that acts as a
lower melting range of the alloy.
It
also assists in oxide layer production for
the porcelain bonding in gold based &
palladium based alloys.
Tin
is the one of the key trace elements for
the oxidation of the palladium silver alloys.
M.T.-231.9;CTE-0.23
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43. BERYLLIUM:Lowers the melting temperature of the nickel
based alloys.
It improves the castability,improves polish ability.
Helps to control the oxide layer formation.
BORON:Boron is a de oxidizer.
It reduces the surface tension there by increases
the castability.
Reduce the ductility & increase the hardness.
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44. CHROMIUM: Chromium
is a solid solution hardening agent that
contributes to corrosion resistance.
M.T.-1875; CTE– 0.062.
COBALT:-used
as alternative to the nickel based
alloys.
Cobalt included in the high palladium alloys to
increase the CTE.
It also acts a strengthener.
M.T.-1495; CTE– 0.138.
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45. COPPER: The
properties of the copper is same like aluminum.
M.T.—1083; CTE– 0.165.
GALLIUM: Gallium
is added to silver free alloys to compensate the
decreased CTE.
GOLD:-it
provides the high levels of the tarnish
&corrosion.
It increases melting range.
It improves the wettability,burnishability &increases the
density.
M.T.—1063; CTE– 0.142.
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55. PALLADIUM – SILVER ALLOY SYSTEM
Composition:
Palladium:55%-60%
Silver:28%-30%
Indium & tin are used.
The melting range of the this alloy system is
1021degrees-1099degrees centigrade.
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56. Advantages
Disadvantages
Low
Discoloration
cost & density
Good castability &
porcelain bonding
Low hardness
Excellent sag ,tarnish
& corrosion resistance
Suitable for long span
fpd’s
Pd-Ag
prone to absorb
gases
High CTE
May form internal
oxides.
Should not be cast in
carbon crucible
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58. Advantages
Low
cost
Low density
High resistance
It can produce thin
castings
Poor thermal
conductor
Can be etched.
Disadvantages
Cannot be used with Ni
sensitive patients
Beryllium may be toxic to
the technician & patients
Bond failure may occur
High hardness
Difficult to solder
Difficult to cut through
cemented castings
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60. •Advantages
Do
not contain
beryllium
Low cost
Low density means
more castings per
ounce.
Disadvantages
Cannot
be use with
nickel sensitive
patients
Produce more oxides
than Ni-Cr-Be alloys.
May not cast as well
as Ni-Cr-Be alloys
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61. COBALT – CHROMIUM ALLOYS
Composition:
Cobalt:53%-68%
Chromium:25%-34%
Trace elements of molybdenum ruthenium are
added.
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62. Advantages
Do
not contain nickel
Do not contain
beryllium
Poor thermal
conductors
Low density
Low cost
Disadvantages
More difficult to process
than Ni base alloys
High hardness
Oxide more than both Ni
based alloys
No information on long
term clinical studies.
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63. THE
MELTING TEMPARATURE OF THE
HIGH NOBLE ALLOYS IS 1271DEGREE
CENTIGRADE TO 1304 DEGREE
CENTIGRADE.
FOR
NOBLE METALS 1232 DEGREE
CENTIGRADE TO 1304 DEGREE
CENTIGRADE.
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67. Make
at least two
vertical cuts in the
incisal portion of the
facial surface.
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68. Next
align the flat end
tapered diamond with
the gingival portion of
the facial surface.
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69. Sink
the side of the
diamond into the
mesiodistal center of
the facial
surface,maintain the
instrument alignment
parallel to the gingival
surface of the facial
segment.
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70. Make
two incisal
orientation grooves
that are 2mm deep.The
diamond should be
parallel to the incisal
edge faciolingally.
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74. If
there sound tooth
structure inter
proximally, wing
preparation is done.
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75. Begin
the lingual
reduction with the
small round diamond
with diameter of
1.4mm. Sink this
instrument into the
lingual tooth structure
up to 0.7mm.
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78. Smooth
the entire
facial surface with
no.171 bur .Round
over the any sharp
angles on the incisal
angle or along the
edges of the incisal
notches with no.171
bur.
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79. After
the tooth preparation gingiva has to be
retracted,impression is made with materials
such as rubber base,which is the best material
available for the impression procedures.
After
this the working cast is obtained and the
die pins are placed .
Apply
die hardener,then die spacer and die
separator.
Now the die ready for the wax pattern
fabrication.
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82. ESSENTIALS OF METAL CERAMIC
SUB SRUCTURE
FUCTIONS
OF THE METAL CERAMIC
SUBSTRUCTURE:
1.Primary functions: The casting provides fit of the restoration to the
prepared tooth.
The metal forms oxides that bond chemically to
the dental porcelain.
The coping serves as a rigid foundation to which
the brittle porcelain can be attached for increased
strength & support.
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83. The
sub structure restores the tooth's proper
emergence profile.
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84. Metal
SECONDARY
FUNCTIONS:-
occlusal & lingual articulating surfaces
generally less destructive to the enamel of the
opposing natural tooth.
Fabrication of the restoration with minimal
occlusal clearance has more potential for the
success with metal substructure than all ceramic
alloys.
Occlusal surfaces can be easily adjusted &
repolished intraorally.
The metal axial walls can support the removable
partial denture.
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85. SUB STRUCTURE DESIGN FOR
THE SINGLE UNIT RESTORATIONS.
Procedure
for the maxillary anterior sub
structure:
When restoring anterior teeth,more emphasis is
placed on esthetics than any other single
requirement.
There important factors to be considered for the
restoration of the anterior teeth:
1.Location of the occlusal contacts.
2.Amount of the clearance.
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86. LOCATION OF OCCLUSAL
CONTACTS:
The
mandibular anterior teeth contact the lingual
surfaces of the lingual surfaces of the maxillary
anterior teeth in the centric occlusion.
The location of the those contact areas should be
identified with articulating film.
When these occlusal contacts appear in the
incisal one half of the restoration,then the
porcelain veneer may be extended over incisal
edge for the occlusion in the porcelain.
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87. According
to the concept of the mutually
protected occlusion in centric occlusion the
anterior teeth are out of the contact by
approximately 25 microns or two thickness of
shimstock.
The
design of the lingual aspect of the metal
ceramic depend on the clinician & patient.
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88. When
the anterior
teeth contact in the
incisal region,it is
often necessary to
consider a design with
lingual surface in
porcelain to avoid
functioning on or over
the porcelain metal
junction.
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89. Do
not design the sub
structure so contact
occurs at the porcelain
metal junction.
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90. When
the anterior
teeth occlude in the
gingival half of the
maxillary teeth or
when the lingual tooth
reduction is less than
1mm it is best to
design the sub
structure with
occlusion in the metal.
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91. AMOUNT OF THE CLEARENCE
One
of the advantage of the restoring the lingual
occlusion in the metal is less tooth reduction is
required than for the full ceramic restoration.
It
is depend on the clinician & dentist to give
ceramic or the metal.
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93. THERE
ARE THREE METHODS OF
WAX PATTERN FABRICATION:
1.CUT
BACK METHOD.
2.PLASTIC
SHELL TECHNIQUE.
3.DIPPING
MEHTOD.
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94. STEP BY STEP PROCEDURE
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96. Scribe
a line across the
labial surface between
0.5-1mm above the
marginal finish line.Also
scribe a line across the
labial surface 1.5mm
from the incisal edge
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97. After
completing the
full contour wax up
determine the location
of the patient’s centric
& eccentric occlusal
contacts, then scribe a
line for the porcelain
metal junction.
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98. Remove
the die & wax
pattern form the
master cast.connect
the lines drawn for the
porcelain metal
junction.
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99. Reduce
the incisal
edge by at least 1.5mm
to provide sufficient
space to re-create the
appearance of natural
translucency yet avoid
un supported
porcelain.
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100. The
wax pattern is
now ready to be cut
back.The objective of
the cut back procedure
is to remove a uniform
thickness of
approximately 1mm
wax from all proximal
surfaces of the
substructure to receive
porcelain.
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101. use discoid carver,or
similar instrument to
refine the porcelain
metal junction on the
labial&lingual
surfaces.
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102. Evaluate
the cut back
in the master cast for
proper extension &
adequate clearance by
viewing it from all
anglelabial,lingual&incisal.
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103. Measure
the thickness
of the wax pattern
with the rounded tips
of the Iwanson wax
pattern.
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104. Smooth
any sharp line
angles to produce
rounded contours.A
cotton swab or Q-tip
moistened with
debubblizer and
warmed by a flame
can be used for this
procedure.
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108. WAX
THE
RESTORATION TO
FULL CONTOUR &
ASSES ITS
CONTOUR FROM
OCCLUSAL &
FACIAL VIEWS.
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109. SCRIBE
A LINE ON
ON THE INNER
INCLINE OF THE
BUCCAL CUSP
FROM DISTAL TO
MESIAL THAT IS
2MM FORM ANY
AREA OF THE
OCCLUSAL
CONTACT.
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110. Scribe
the gingival &
inter proximal lines for
the proposed cut
back.remove the die &
wax pattern from the
master cast and connect
the occlusal inter
proximal scribe line for
the cut back.
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111. Complete
the cut back
then view the
completed wax pattern
from the occlusal and
facial views.
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112. Carefully
examine the
cut back to make
certain enough wax
has been removed to
ensure that ceramic
veneer will be uniform
in all areas
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113. If the interproximal contact area is to
be restored in porcelain rather than
metal extend the cut back of the
porcelain metal junction further
lingually.
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117. The
disadvantage of cut technique
are
Thinning the wax in the areas to be
veneered with porcelain can create
problems.
The wax become fragile & breaks
easily.
Forces generating during th4e cut back
procedure may distort the adaptation
of the pattern.
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119. First
full contour of
the wax pattern is
made.carefully inspect
the inspect the wax
pattern for the proper
contours,& inter
proximal areas.
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124. After
the cut back,view
the sub structure form
the facial,incisal, and
lingual views.There
should be a 1mm gap
between the pontics area
and the soft tissue which
will be covered by
ceramic later
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129. Heat
the disk slowly
and evenly by holding
them, approximately
10 cms above the
flame.
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130. Place
the heated
coping disk and the
spacer over the mouth
of the moulding
apparatus, a plastic jar
filled with silicone
putty.
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131. Press
the trimmed die
forcefully against the
softened spacer and
the coping disk until
the finished line of the
preparation
completely submerges.
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132.
This
closely adapts the two disks over the tooth
preparation.continue to exert the pressure against
the disks with die until the sheet becomes
cloudy.This will take approximately 10seconds.
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133. • Heating the coping disk
stretches it to the desired
thickness of 0.3mm.
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134. Three
cuts are made in
the unadapted skirt of
the disks with pair of
iris scissors.
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135. The
disks are pulled of
the tooth preparation
die.
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136. The
spacer disks are
peeled out of the
coping shell.
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138. The
trimmed shell is
placed over the.the
edges of the copings
are about 1.0mm short
of the finish line on
the die.
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139. The
1.0mm gap
between the shell and
the finish line is filled
with the wax.
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140. The
benefits of the using plastic shell
copings becomes apparent during the cut
back stage.
The plastic coping provides rigidity & resist
distortion.
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144. TECHNIQUES
A
spruing system is intended to create a
channel or series of channels in the set
investment though which molten alloy flows to
reach the pattern areas.
There
is no single method of spruing that is
universally accepted.
The
manufacturer’s recommendations has to be
followed for their alloy productions.
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145. METHODS
Wax
patterns can be sprued in one of two
different methods.each method has it’s
advantages & disadvantages.
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146. DIRECT SPRUING
With the direct spruing the flow of the molten
metal is straight from the casting crucible to
pattern area in the ring.
This method requires less time
PROCEDURE:
A straight Sprue former is luted to the thickest
part of the wax pattern.
One end is to the wax pattern & other end is
secured to the crucible former.
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147. The
sprue former can be modified by placing a
ball or round reservoir between the pattern and
the button.
Even with the ball reservoir, the spruing method
is still direct.
Direct spruing is used to most frequently for the
single units.
The
draw back of this method is the potential
suck back porosity at the junction of the
restoration & the sprue.
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148. INDIRECT TECHNIQUE
With
the indirect spruing,the molten metal does not flow
directly form the casting crucible into the pattern area.
The
casting alloy takes a circuitous root before it
reaches the pattern areas.
With
this method of spruing,the connector bar is 6gauge or 8-gauge round wax to which the wax pattern
sprue formers are attached on one side with two larger
ingot sprue formers on the other side.
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149. Here
the connector acts as a reservoir.
The
composition of the alloy will influence the
manner in which it fills the mold.
For
Example: Palladium-Silver alloy fill the mold
unidirectionally.
Type III gold fills the mold in a random fashion.
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150. The
value of the indirect spruing for single
crowns&bridges.
Although
direct spruing can produce acceptable
results, in many instances indirect spruing offers
advantages such as greater predictability &
reliability in the casting plus enhanced control of
solidification shrinkage.
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151. SPRUE FORMER PLACEMENT
The
sprue former attached to the wax up should
be luted to the thickest part of the pattern to
allow the molten alloy to flow from regions
large volume to lesser volume.
Placing
the sprue former else where may result
in the improper casting.
The
most practical sprue location is the mid
incisal area.
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153. SPRUE FORMER GAUGE
A
pattern sprue former of the sufficient size
should be selected to supply the volume of alloy
required of the patterns to the cast.
The
round wax sprue former are conveniently
identified with gauge No.10,8,6.
The
larger the No. smaller the size of the sprue
formers diameter.
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154. SPRUE FORMER LENGTH.
With
the direct spruing method, the sprue former
should be long enough to position the wax
patterns out side the heat center of the ring.
The length of the sprue former should be vary
with the type & size of the crucible former & the
casting ring used.
5mm of the pattern sprue former is often
sufficient to connect the wax pattern & the
connector bar.
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155. ORIENTATION OF THE WAX
PATTERN.
Attach
the sprue to the thickest portion of the
wax pattern.
Do not cerate sharp 90 degrees angles between
the sprue former and the wax pattern or position
the pattern so the alloy would have to flow back
towards the ring entrance.
It is essential to take advantage if the
gravitational force and the centrifugal forces by
positioning the wax pattern such that the alloy is
cast towards the thinner sections.
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157. LOCATION OF THE RESERVOIR
The
reservoir of the spruing system,should be
placed in the heat center of the ring.
This permits the reservoir to remain molten
longer & enables it to furnish alloys to the
patterns until they complete the solidification
process.
This should have the largest mass of any part of
the sprue system.
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158. SPRUE FORMER COMPOSITION
WAX Vs PLASTIC
Casting wax melts out by leaving 0.1%
residue.
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159. PRE FABRICATED SPRUE
FORMERS.
READY SPRUES:
The design of the prefabricated indirect
sprue formers permits rapid placement
of the pattern in the accompanying
sprue former & consistent location of
the reservoir bar in the oval casting
ring.
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160. TRI WAX SYSTEM:
The
pre fabricated TRI WAX system from
Williams dental company available as direct
and indirect sprues.
Three
sizes are available 6,8,10 gauge number.
The
large indirect patterns are useful for the
large pontics and thick molar wax patterns.
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162. TORCH SELECTION.
There
are two types of the torches when
selecting for the casting equipment.
1.Multi orifice torch.
2.Single orifice torch.
The tip mostly used for the metal ceramics is
multi orifice.
Its main advantage is the distribution of heat
over a wide area for more uniform heating of a
alloy.
The single unit orifice concentrate more heat in
one area.
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164. CHOICE OF FUELS
ACETYLENE:
This
is a colorless gas with distinctive garlic
odor.
It
will burn in air & can generate a flame
approaching 3000 degrees.
Acetylene
is usually contaminated with the
carbon and other elements.so it should not be
used for the metal ceramic alloys.
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165. NATURAL
GAS:
This
fuel is a by product of the natural
decomposition of the organic matter.
When
mixed with air the natural gas flame
approaches 2,200degrees.
Replacing
the air with oxygen enables natural
gas to attain temperatures required to melt high
fusing noble & base metal alloys.
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166.
Inadequate pressure in the gas lines,fluctuations
in pressure levels,water contamination,
variations in the compositions among the
companies are some of the problems
encountered by the natural gas users.
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167. PROPANE:
The
problems with the natural gases are avoided
when using bottle propane gas.
The
constant regulated mix of
pure,uncontaminated propane & oxygen provides
a clean,consistent burn leading to a more ideal
melt.
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168. CASTING CRUCIBLES
Either
zircon-alumina or quartz casting crucible
are recommended for noble & base metal alloys.
Carbon
crucible well suits for the gold alloys.
But
there is chance of the carbon contamination
leads to lessen the strength of the alloys.
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169. After
selecting the appropriate type of the casting
crucible,pre heat it in the oven to avoid spalling
& prolongs the life of the crucible.
Never
cast different alloys in the same crucible
as this causes contamination.
Carve
the alloy name on the crucible for
identification.
Do
not use the asbestos liner in the crucible or
flux in the molten metal.
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170. THE LAWS OF CASTING
INGERS0LL
& WANDLING formulated an
expanded set of 17 separate recommendations for
spruing, investing, burnout, melting & casting.
Collectively, these guide lines are referred to
LAWS OF CASTING.
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171. THE FIRST LAW OF CASTING
Attach
the pattern sprue former to the thickest
part of the wax pattern.
As the molten alloy moves from the reservoir to
the pattern margins it should flow from greater
volume to lesser volume areas.
Lute the pattern sprue former to the most
practical portion wax pattern.
Molten metal flowing form a thin area to a
thicker region may solidify before the mold is
completely filled.
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172. The
penalty for not obeying this law are cold
shuts, short margins, & incomplete castings
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173. SECOND LAW OF CASTING.
Orient
wax patterns so all the restorations margin
will face the trailing edge when the ring is
positioned in casting machine.
To
identify the orientation add a wax dot to the
crucible former.This helps as guide to place the
ring in the crucible.
The
penalties for not obeying this laws are cold
shuts, & short margins.
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174. THIRD LAW OF CASTING
Position
the wax pattern in the cold zone of the
investment mold & the reservoir in the heat
center of the casting.
The coolest part of the mold are at the end of ring
& along the ring periphery.
The hottest portion of the casting ring is located
near the center of the ring.
Limit the amount of the investment covering the
pattern to no more than ¼ in.
The penalty for not obeying this law shrinkage,
porosity in the restoration.
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175. FOURTH LAW OF CASTING
A
reservoir must have sufficient molten metal to
accommodate the shrinkage that occurs with in
the restoration.
Alloy that fills the restoration solidify first.as that
solidifies,it shrinks and create a vacuum.For
completing casting , the vacuum must be able to
draw additional metal form an adjacent source –
the reservoir.
The penalties for not obeying this law are
shrinkage porosity& suck back porosity.
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176. FIFTH LAW OF CASTING
Do
not cast a button if a connector bar or other
internal reservoir,is used.
With indirect spruing, largest mass of the metal
should be the reservoir.A button is counter
productive because it can draw available molten
alloy from the bar.
Shift the heat center & reduce the feed of the
metal to the restorations.
Like wise the wax patterns should not be larger
than connector bar.
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177. The
penalties not obeying this law are
shrinkage porosity, distortion, & suck back
porosity.
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178. SIXTH LAW OF CASTING
Turbulence
must be minimized if not totally
eliminated.
Pathways for the flow of the metal should be
smooth, gradual & with out impediments.
Eliminate sharp turns retractions,points,or
impingements.
That might create turbulence & occlude air in the
casting.
The penalties not obeying this law are
voids,surface pitting,mold wash.
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179. SEVENTH LAW OF CASTING
Select
a casting ring of a sufficient length &
diameter to accommodate the patterns to be
invested.
The casting ring should permit the patterns to be
¼ in.apart & 1/4in from the top of the investment
with minimum 3/8in of the investment between
them & the ring liner.
Less investment-alloy break through the
investment.
Too much investment-impairs the escape of the
gases.
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181. EIGHTTH LAW OF CASTING
Increase
the wettability of the wax patterns.
A wetting agent should be brushed or sprayed
on the patterns and dry before investment.
A clean wax surface better enables the casting
investment to wet the patterns more completely.
Too much of the wetting agent-weaken the
investment & produce bubbles.
The penalties for not obeying this law are
:bubbles
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182. NINTH LAW OF CASTING
Weigh
the bulk of the investment & measure the
investment liquid for a precise powder:liquid
ratio.
The correct proportions of powder to liquid and
any dilution of the liquid with distilled water
should be established for each alloy.
Thick mix of the investment-more expansionloose fittings.
Thin mix of the investment-less expansion-tight
fittings.
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183. TENTH LAW OF CASTING
Eliminate
the incorporation of air in the casting
investment and remove the ammonia gas by
product of phosphate bonded investment by
mixing under vacuum.
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184. 11th LAW OF CASTING
Allow
the casting investment to set completely
before initiating the burnout procedure.
The
penalties for not obeying this law are mold
cracking, blow out.
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185. 12th LAW OF CASTING.
Use
a wax elimination (burnout) procedure that
is specific for the type of pattern involved &
recommended for the particular type of casting
alloy selected.
Plastic sprues has to be heated slowly so they can
soften gradually & not exert pressure on the
mold.
If burnout is incomplete,the spruing system
channels may be blocked by plastic or wax
residue.
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186. The
penalties for not obeying this law colds
shuts, short margins, cold welds, mold
cracks.
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187. 13th LAW OF CASTING
Adequate
heat must be available to properly
melt and cast the alloy.
Prolonged heating-by improperly adjusted torchprevent the alloy from attaining the fluidity.
Too much of heat or too high temperature can
off minor alloying elements.
The penalties for not obeying this law are cold
shuts, short margins, cold welds, rough castings,
investment break down.
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188. 14th LAW OF CASTING
When
torch casting, use the reducing zone of the
flame to melt the alloy & not the oxidizing zone.
Improperly adjusted torch-adds carbon.
Reducing zone- minimize the gas absorption.
Penalties:gas
porosity,change in alloy’s CTE
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189. 15th LAW OF CASTING
Provide
enough force to cause the liquid alloy to
flow in to the heated mold.
Adjust the casting machine to the requirements of
each alloy.
Low density metal generally needs 4 winds of a
centrifugal casting arm.
Penalties:cold
shuts, short margins, cold welds,
mold fracture.
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190. 16th LAW OF CASTING
Cast
towards the margins of the wax patterns.
Place the heated in the casting cradle using the
orientation dot.So the pattern margin face the
trailing edge.
In the centrifugal casting machine the metal will
flow downwards and to the right,taking
advantage of centrifugal, rotational, gravitational
forces on the molten alloy.
Penalties: cold shuts, short margins, incomplete
castings.
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191. 17th LAW OF CASTINGS
DO
NOT QUENCH THE RING
IMMEDIATELY AFTER CASTING.
UNEVEN
COOLING-APPLY TENSILE
FORCES TO THE CASTING.
AFTER
CASTING THE ALLOY MAY NOT
HAVE THE SUFFICIENT STRENGTH TO
RESIST THESE FORCES & RESTORATION
COULD TEAR.
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192. Thank you
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