This document discusses the design of thick wall pressure vessels. It provides an introduction to pressure vessels, their classification into thin wall and thick wall cylinders, and equations used to determine wall thickness for thick cylinders. These include Lame's equation, Clavarino's equation, Birnie's equation, and Barlow's equation. Key factors in thick wall cylinder analysis are that tangential stress decreases from inner to outer surface and radial stress is significant.
1. A shaft transmits power and rotational motion and has machine elements like gears and pulleys mounted on it.
2. Press fits, keys, dowel pins, and splines are used to attach machine elements to the shaft.
3. The shaft rotates on rolling contact or bush bearings and uses features like retaining rings to take up axial loads.
4. Couplings are used to transmit power between drive and driven shafts like between a motor and gearbox.
The document discusses various aspects of plastics design and manufacturing. It defines plastics and the polymerization process used to create them. It describes the main types of plastics as thermoplastics and thermosets, providing examples of each. It outlines key considerations for designing plastic parts, such as allowing for shrinkage, drafting angles, and hole placement. Finally, it discusses different plastic molding and forming processes like injection molding, blow molding, compression molding, and transfer molding.
Injection molding is a commonly used plastic processing method where plastic is heated and injected into a mold. There are several plastic molding methods that use the heating, forming, and cooling (HFC) process including injection molding, blow molding, and extrusion blow molding. Blow molding uses a preform tube called a parison that is positioned in a mold and inflated with air to form the final shape. Extrusion blow molding creates the parison directly from an extruder while injection blow molding injects molten plastic into a mold to form the parison. These methods are used to manufacture various plastic products like bottles, containers, and toys.
A lecture delivered by our group project on Injection Moulding.
If there are any contents that has violated any intellectual rights, please let me know and I will try my best to correct it wherever I can.
Things Your Extruder Screw Designer Never Told You About Screws - SlideshowR&B Plastics Machinery
This document provides an overview of screw design concepts for plastic extrusion. It discusses common screw nomenclature and sections including flighted length, diameter, feed, transition, and metering. Key concepts covered include length to diameter ratio, coefficient of friction, solids conveying theory, drag and pressure flow, and how viscosity affects pumping. Different screw technologies like barrier screws and two-stage screws are also summarized. The presentation emphasizes providing screw manufacturers with resin data and understanding screw mechanics to ensure optimal screw design.
This document provides guidelines for designing plastic parts for injection molding. It discusses topics such as uniform wall thickness, coring out parts, minimizing shrinkage and warpage, including radii in designs, proper placement of parting lines and draft angles, avoiding undercuts, achieving good flow patterns and gate placement, adding strengthening features like bosses and ribs, incorporating special features such as threads and snap fits, and more. The guidelines are intended to help plastic part designers create designs that are optimized for the injection molding process and avoid common defects.
This document discusses the design of thick wall pressure vessels. It provides an introduction to pressure vessels, their classification into thin wall and thick wall cylinders, and equations used to determine wall thickness for thick cylinders. These include Lame's equation, Clavarino's equation, Birnie's equation, and Barlow's equation. Key factors in thick wall cylinder analysis are that tangential stress decreases from inner to outer surface and radial stress is significant.
1. A shaft transmits power and rotational motion and has machine elements like gears and pulleys mounted on it.
2. Press fits, keys, dowel pins, and splines are used to attach machine elements to the shaft.
3. The shaft rotates on rolling contact or bush bearings and uses features like retaining rings to take up axial loads.
4. Couplings are used to transmit power between drive and driven shafts like between a motor and gearbox.
The document discusses various aspects of plastics design and manufacturing. It defines plastics and the polymerization process used to create them. It describes the main types of plastics as thermoplastics and thermosets, providing examples of each. It outlines key considerations for designing plastic parts, such as allowing for shrinkage, drafting angles, and hole placement. Finally, it discusses different plastic molding and forming processes like injection molding, blow molding, compression molding, and transfer molding.
Injection molding is a commonly used plastic processing method where plastic is heated and injected into a mold. There are several plastic molding methods that use the heating, forming, and cooling (HFC) process including injection molding, blow molding, and extrusion blow molding. Blow molding uses a preform tube called a parison that is positioned in a mold and inflated with air to form the final shape. Extrusion blow molding creates the parison directly from an extruder while injection blow molding injects molten plastic into a mold to form the parison. These methods are used to manufacture various plastic products like bottles, containers, and toys.
A lecture delivered by our group project on Injection Moulding.
If there are any contents that has violated any intellectual rights, please let me know and I will try my best to correct it wherever I can.
Things Your Extruder Screw Designer Never Told You About Screws - SlideshowR&B Plastics Machinery
This document provides an overview of screw design concepts for plastic extrusion. It discusses common screw nomenclature and sections including flighted length, diameter, feed, transition, and metering. Key concepts covered include length to diameter ratio, coefficient of friction, solids conveying theory, drag and pressure flow, and how viscosity affects pumping. Different screw technologies like barrier screws and two-stage screws are also summarized. The presentation emphasizes providing screw manufacturers with resin data and understanding screw mechanics to ensure optimal screw design.
This document provides guidelines for designing plastic parts for injection molding. It discusses topics such as uniform wall thickness, coring out parts, minimizing shrinkage and warpage, including radii in designs, proper placement of parting lines and draft angles, avoiding undercuts, achieving good flow patterns and gate placement, adding strengthening features like bosses and ribs, incorporating special features such as threads and snap fits, and more. The guidelines are intended to help plastic part designers create designs that are optimized for the injection molding process and avoid common defects.
The document provides guidelines for designing products for manual assembly. It discusses minimizing part counts, using symmetry and self-locating features to guide insertion, avoiding nested parts, and designing for top-down assembly. The guidelines aim to reduce assembly time and costs by making products easy to handle, insert parts, and avoid secondary operations like holding parts in place.
This laboratory report examines the influence of injection molding parameters on the mechanical and physical properties of a polymer blend made of 50% polypropylene and 50% polyethylene. The report describes injection molding experiments conducted to produce "dog bone" test specimens while varying injection pressure, temperature, and speed. Tensile tests and Rockwell hardness tests were performed on the specimens to analyze properties. Microscopic analysis was also conducted. The results were analyzed using Taguchi methods to determine the most influential parameters and optimize the injection molding process.
This document contains a question bank for the Design of Machine Elements course covering various topics in 5 units. It includes over 180 questions related to steady and variable stresses in machine members, shafts and couplings, joints, energy storing elements, and bearings. The questions cover topics such as stress analysis, materials selection, fits and tolerances, failure theories, stress concentration, fatigue design, and design of common machine components. The document also lists the textbook and references used for the course.
WHAT IS PLASTIC?
A synthetic material made from a wide range of organic polymers such as polyethylene, PVC, nylon, etc., that can be molded into shape while soft, and then set into a rigid or slightly elastic form.
This document provides an overview of torsion and power transmission in shafts. It defines the torsion equation that relates torque, shear stress, polar second moment of area, and angle of twist. Formulas are derived for solid and hollow circular shafts. Examples are provided to calculate shear stress, angle of twist, and maximum torque or power given various shaft properties and limitations. The document also relates mechanical power to torque and rotational speed.
The document discusses various concepts related to belt drives, including:
1. Definitions of key terms used in belt drive calculations such as velocity ratio, slip, creep, tension, power transmission.
2. Types of belt drives including open, crossed, and quarter turn drives. Belt drives can also include idler pulleys.
3. Properties of common belt materials like leather, cotton, rubber, and their densities. Recommended belt speeds are between 20-22.5 m/s.
Vibrating conveyors move materials through the use of vibration rather than belts or screws. They are useful for conveying bulk materials either horizontally or at slight inclines. The document discusses the definition, types, working principle, functions, power requirements, applications, advantages, and limitations of vibrating conveyors. Vibrating conveyors transfer material through a trough or tube that is flexibly mounted and vibrated, causing the material to move in a continuous flow. They are well-suited for handling fragile or irregular items and can operate in harsh environments.
Wire ropes are made of strands of twisted steel wires wrapped around a core. They are used to transmit power over long distances in applications like elevators, cranes, and bridges. Wire ropes have advantages like being lighter, more reliable, and durable. They are classified based on the direction of twist of the wires and strands. Design considerations for wire ropes include selecting the type based on application, calculating design load and rope diameter, and ensuring stresses do not exceed the rope's ultimate strength. Sample problems demonstrate designing a wire rope for a mine hoist and selecting a rope to lift debris from a well.
The document is a presentation on bearings created by Akash Panchal. It discusses the definition of a bearing, provides a brief history, and examines various types of bearings like ball bearings, roller bearings, plain bearings, and their functions. It also looks at bearing selection, arrangement, lubrication, and life calculation. The presentation contains several diagrams and is intended to provide an overview of bearings.
This document discusses the design of journal bearings. It begins by introducing journal bearings and how they operate by allowing sliding along a circular surface to handle radial loads. It then describes the different types of journal bearings according to their angle of contact and lubricating layer thickness. The document outlines the materials commonly used for journal bearings and defines important terms in hydrodynamic journal bearings. It presents two main design methods - the M.D. Hersey method and the A.A. Raimondi and J. Boyd method - and provides overviews of the steps and considerations involved in each.
PLC Programming Example - Conveyor Reject (Shift Register)ACC Automation
More information can be obtained at our website.
http://accautomation.ca/plc-programming-example-shift-register-conveyor-reject/
We will apply the five steps to PLC Program development to our next programming example of a shift register - conveyor reject.
1.Define the task
2.Define the inputs and outputs
3.Develop a logical sequence of operation
4.Develop the PLC program
5.Test the program
Another example of programming PLC Shift Registers can be seen at on our product sorting application. This will use 3D factory IO to demonstrate sorting colour tags.
PLC Programming Example – Sorting Station (Shift Register)
http://accautomation.ca/plc-programming-example-sorting-station-shift-register
PLC Programming Example - Sorting Station Testing - Video
https://youtu.be/W0aibYb3DnE
PLC Programming Example - Sorting Station - Video
https://youtu.be/YMl2DPm_yaU
http://www.accautomation.ca
Increasing the Strength and Reliability of Press FitsDesign World
Retaining compounds increase the strength and reliability of traditional press and shrink fits. Retaining compounds improve the distribution of stress, which increases maximum load transmission and performance. They create a physical barrier that eliminates fretting, oxidation and galvanic corrosion, which increase service life.
Recent chemical advances in retaining address assembly process variables including gaps, surface finish and cleanliness ensuring consistent performance. Application equipment provides repeatable precision dispensing.
• Recent innovations in retaining: tolerance, higher temperature resistance, primerless formulas
• New data on retaining advancements: test results on strength, oil and chemical tolerance
• How to use retaining compounds to augment a press fit for increased reliability
• Application case histories for retaining including cost and performance
Injection Molding is a process of forcing molten plastic into a mold cavity of required shape and the finished part is ejected after the cooling process. Copy the link given below and paste it in new browser window to get more information on Injection Molding:- http://www.transtutors.com/homework-help/mechanical-engineering/injection-molding.aspx
A Presentation on Automatic conveyor belt systemDHRUVIT KHARADI
This document presents a programmable logic controller (PLC) system for controlling two conveyor belts. It includes an overview of PLCs and their components like the processor. It then provides a problem statement to design ladder logic to control two conveyor belts based on conditions like starting on a start button press and proximity sensors detecting objects. The solution section shows the ladder logic diagram and variables used, like inputs for start/stop buttons and sensors, and outputs to control the conveyor belts. It describes the logic flow of starting the first belt when started, counting objects with a counter, and starting the second belt when the count reaches 5 while stopping the first belt, then repeating by restarting the first belt once 5 objects pass the
Extrusion is a high-volume manufacturing process where plastic material is melted and forced through a die to create a continuous profile. There are various types of extrusion processes depending on the final product, such as sheet/film extrusion, tubing extrusion, and wire coating. Extruders use either single or twin screws to melt, mix, and convey the plastic material. The processing section of the extruder subjects the material to different conditions like melting, mixing, venting and homogenization. Wear of extruder components can reduce efficiency over time. Final products are cut into pellets using various pelletizing systems after exiting the die.
Pneumatics: Shuttle, Twin pressure, Quick Exhaust, Time Delay, FRLAbhishek Patange
The document discusses various components used in pneumatic systems including logic gates, valves, and FRL units. It begins with explanations of shuttle valves and twin pressure/dual pressure valves that can function as OR and AND logic gates respectively. Various valves are then discussed such as time delay valves, quick exhaust valves, and their applications. Speed control methods and the stick-slip effect in pneumatics are also covered. Finally, the construction and working of the main components of an FRL (filter, regulator, lubricator) unit are explained in detail with diagrams.
The document discusses different types of hydraulic cylinders and rotary actuators. It describes single acting cylinders that work in one direction, double acting cylinders that work in both directions, and telescopic cylinders for large strokes or limited spaces. It also covers properties of cylinders, calculations, buckling checks, and cushioning cylinders at the end of strokes. Rotary actuators discussed include vane, piston, and limited angle types.
Belt conveyors transport bulk materials like crushed limestone and coal in cement plants. A belt conveyor consists of an endless rubber belt stretched over several pulleys that travels constantly. It includes belt elements, idlers, pulleys, take-ups, and other components. Proper loading conditions and regular maintenance are important to prevent belt wear and failures. Safety precautions must also be followed when working with belt conveyors.
1. Valves measure and control fluid pressure and flow in hydraulic circuits. Common valves include relief valves, reducing valves, unloading valves, sequence valves, and counterbalance valves.
2. Relief valves open to discharge fluid and prevent excess pressure when inlet pressure reaches a set point. Reducing valves lower pressure to a controlled outlet value. Sequence valves control the order of actuators based on preset pressure levels. Counterbalance valves maintain pressure on one side of a system until another reaches a threshold.
Downflow booths provide operator, process and / or product protection by utilizing HEPA filtered unidirectional laminar downflow to maintain an ISO 5 environment at rest within the work zone and capture particulates during open handling processes.
The standard Esco DFBG2 has over 420 possible dimensional models and approximately 3.5 million possible system configurations ensuring that Esco can provide a standard solution to fit your specific process and facility requirements. Should a standard option not fit your requirements Esco can offer a customized solution.
The DFBG2 is designed such that through the different configurations it can be applied; but not limited to, the following markets:
- Pharmaceutical
- Biological
- Cosmetic
- Animal
- Nutraceutical
- Robotic
- Food
- Electronic
Understanding three plate molds and hot runner systemNaik Devang
This document discusses three plate molds and hot runner systems. It explains that three plate molds have two openings between three plates and a top gate. It also describes the components of a three plate mold like sucker pins and stripper plates. The document then discusses hot runner systems, noting that they are like extended nozzles that deliver molten plastic evenly to each cavity. It provides procedures for starting up and checking hot runner systems, preventing leaks, and checking for issues during production.
Viking title block for sectioned bracket and basesteelerboy9553
This technical drawing shows a base with symmetrical sides labeled A-A and B-B. Section E-E cuts through the center of the base and provides a cross-sectional view scaled at 1:1. The drawing includes metadata identifying the student, drawing name, date, teacher, scale, and class information.
The document provides guidelines for designing products for manual assembly. It discusses minimizing part counts, using symmetry and self-locating features to guide insertion, avoiding nested parts, and designing for top-down assembly. The guidelines aim to reduce assembly time and costs by making products easy to handle, insert parts, and avoid secondary operations like holding parts in place.
This laboratory report examines the influence of injection molding parameters on the mechanical and physical properties of a polymer blend made of 50% polypropylene and 50% polyethylene. The report describes injection molding experiments conducted to produce "dog bone" test specimens while varying injection pressure, temperature, and speed. Tensile tests and Rockwell hardness tests were performed on the specimens to analyze properties. Microscopic analysis was also conducted. The results were analyzed using Taguchi methods to determine the most influential parameters and optimize the injection molding process.
This document contains a question bank for the Design of Machine Elements course covering various topics in 5 units. It includes over 180 questions related to steady and variable stresses in machine members, shafts and couplings, joints, energy storing elements, and bearings. The questions cover topics such as stress analysis, materials selection, fits and tolerances, failure theories, stress concentration, fatigue design, and design of common machine components. The document also lists the textbook and references used for the course.
WHAT IS PLASTIC?
A synthetic material made from a wide range of organic polymers such as polyethylene, PVC, nylon, etc., that can be molded into shape while soft, and then set into a rigid or slightly elastic form.
This document provides an overview of torsion and power transmission in shafts. It defines the torsion equation that relates torque, shear stress, polar second moment of area, and angle of twist. Formulas are derived for solid and hollow circular shafts. Examples are provided to calculate shear stress, angle of twist, and maximum torque or power given various shaft properties and limitations. The document also relates mechanical power to torque and rotational speed.
The document discusses various concepts related to belt drives, including:
1. Definitions of key terms used in belt drive calculations such as velocity ratio, slip, creep, tension, power transmission.
2. Types of belt drives including open, crossed, and quarter turn drives. Belt drives can also include idler pulleys.
3. Properties of common belt materials like leather, cotton, rubber, and their densities. Recommended belt speeds are between 20-22.5 m/s.
Vibrating conveyors move materials through the use of vibration rather than belts or screws. They are useful for conveying bulk materials either horizontally or at slight inclines. The document discusses the definition, types, working principle, functions, power requirements, applications, advantages, and limitations of vibrating conveyors. Vibrating conveyors transfer material through a trough or tube that is flexibly mounted and vibrated, causing the material to move in a continuous flow. They are well-suited for handling fragile or irregular items and can operate in harsh environments.
Wire ropes are made of strands of twisted steel wires wrapped around a core. They are used to transmit power over long distances in applications like elevators, cranes, and bridges. Wire ropes have advantages like being lighter, more reliable, and durable. They are classified based on the direction of twist of the wires and strands. Design considerations for wire ropes include selecting the type based on application, calculating design load and rope diameter, and ensuring stresses do not exceed the rope's ultimate strength. Sample problems demonstrate designing a wire rope for a mine hoist and selecting a rope to lift debris from a well.
The document is a presentation on bearings created by Akash Panchal. It discusses the definition of a bearing, provides a brief history, and examines various types of bearings like ball bearings, roller bearings, plain bearings, and their functions. It also looks at bearing selection, arrangement, lubrication, and life calculation. The presentation contains several diagrams and is intended to provide an overview of bearings.
This document discusses the design of journal bearings. It begins by introducing journal bearings and how they operate by allowing sliding along a circular surface to handle radial loads. It then describes the different types of journal bearings according to their angle of contact and lubricating layer thickness. The document outlines the materials commonly used for journal bearings and defines important terms in hydrodynamic journal bearings. It presents two main design methods - the M.D. Hersey method and the A.A. Raimondi and J. Boyd method - and provides overviews of the steps and considerations involved in each.
PLC Programming Example - Conveyor Reject (Shift Register)ACC Automation
More information can be obtained at our website.
http://accautomation.ca/plc-programming-example-shift-register-conveyor-reject/
We will apply the five steps to PLC Program development to our next programming example of a shift register - conveyor reject.
1.Define the task
2.Define the inputs and outputs
3.Develop a logical sequence of operation
4.Develop the PLC program
5.Test the program
Another example of programming PLC Shift Registers can be seen at on our product sorting application. This will use 3D factory IO to demonstrate sorting colour tags.
PLC Programming Example – Sorting Station (Shift Register)
http://accautomation.ca/plc-programming-example-sorting-station-shift-register
PLC Programming Example - Sorting Station Testing - Video
https://youtu.be/W0aibYb3DnE
PLC Programming Example - Sorting Station - Video
https://youtu.be/YMl2DPm_yaU
http://www.accautomation.ca
Increasing the Strength and Reliability of Press FitsDesign World
Retaining compounds increase the strength and reliability of traditional press and shrink fits. Retaining compounds improve the distribution of stress, which increases maximum load transmission and performance. They create a physical barrier that eliminates fretting, oxidation and galvanic corrosion, which increase service life.
Recent chemical advances in retaining address assembly process variables including gaps, surface finish and cleanliness ensuring consistent performance. Application equipment provides repeatable precision dispensing.
• Recent innovations in retaining: tolerance, higher temperature resistance, primerless formulas
• New data on retaining advancements: test results on strength, oil and chemical tolerance
• How to use retaining compounds to augment a press fit for increased reliability
• Application case histories for retaining including cost and performance
Injection Molding is a process of forcing molten plastic into a mold cavity of required shape and the finished part is ejected after the cooling process. Copy the link given below and paste it in new browser window to get more information on Injection Molding:- http://www.transtutors.com/homework-help/mechanical-engineering/injection-molding.aspx
A Presentation on Automatic conveyor belt systemDHRUVIT KHARADI
This document presents a programmable logic controller (PLC) system for controlling two conveyor belts. It includes an overview of PLCs and their components like the processor. It then provides a problem statement to design ladder logic to control two conveyor belts based on conditions like starting on a start button press and proximity sensors detecting objects. The solution section shows the ladder logic diagram and variables used, like inputs for start/stop buttons and sensors, and outputs to control the conveyor belts. It describes the logic flow of starting the first belt when started, counting objects with a counter, and starting the second belt when the count reaches 5 while stopping the first belt, then repeating by restarting the first belt once 5 objects pass the
Extrusion is a high-volume manufacturing process where plastic material is melted and forced through a die to create a continuous profile. There are various types of extrusion processes depending on the final product, such as sheet/film extrusion, tubing extrusion, and wire coating. Extruders use either single or twin screws to melt, mix, and convey the plastic material. The processing section of the extruder subjects the material to different conditions like melting, mixing, venting and homogenization. Wear of extruder components can reduce efficiency over time. Final products are cut into pellets using various pelletizing systems after exiting the die.
Pneumatics: Shuttle, Twin pressure, Quick Exhaust, Time Delay, FRLAbhishek Patange
The document discusses various components used in pneumatic systems including logic gates, valves, and FRL units. It begins with explanations of shuttle valves and twin pressure/dual pressure valves that can function as OR and AND logic gates respectively. Various valves are then discussed such as time delay valves, quick exhaust valves, and their applications. Speed control methods and the stick-slip effect in pneumatics are also covered. Finally, the construction and working of the main components of an FRL (filter, regulator, lubricator) unit are explained in detail with diagrams.
The document discusses different types of hydraulic cylinders and rotary actuators. It describes single acting cylinders that work in one direction, double acting cylinders that work in both directions, and telescopic cylinders for large strokes or limited spaces. It also covers properties of cylinders, calculations, buckling checks, and cushioning cylinders at the end of strokes. Rotary actuators discussed include vane, piston, and limited angle types.
Belt conveyors transport bulk materials like crushed limestone and coal in cement plants. A belt conveyor consists of an endless rubber belt stretched over several pulleys that travels constantly. It includes belt elements, idlers, pulleys, take-ups, and other components. Proper loading conditions and regular maintenance are important to prevent belt wear and failures. Safety precautions must also be followed when working with belt conveyors.
1. Valves measure and control fluid pressure and flow in hydraulic circuits. Common valves include relief valves, reducing valves, unloading valves, sequence valves, and counterbalance valves.
2. Relief valves open to discharge fluid and prevent excess pressure when inlet pressure reaches a set point. Reducing valves lower pressure to a controlled outlet value. Sequence valves control the order of actuators based on preset pressure levels. Counterbalance valves maintain pressure on one side of a system until another reaches a threshold.
Downflow booths provide operator, process and / or product protection by utilizing HEPA filtered unidirectional laminar downflow to maintain an ISO 5 environment at rest within the work zone and capture particulates during open handling processes.
The standard Esco DFBG2 has over 420 possible dimensional models and approximately 3.5 million possible system configurations ensuring that Esco can provide a standard solution to fit your specific process and facility requirements. Should a standard option not fit your requirements Esco can offer a customized solution.
The DFBG2 is designed such that through the different configurations it can be applied; but not limited to, the following markets:
- Pharmaceutical
- Biological
- Cosmetic
- Animal
- Nutraceutical
- Robotic
- Food
- Electronic
Understanding three plate molds and hot runner systemNaik Devang
This document discusses three plate molds and hot runner systems. It explains that three plate molds have two openings between three plates and a top gate. It also describes the components of a three plate mold like sucker pins and stripper plates. The document then discusses hot runner systems, noting that they are like extended nozzles that deliver molten plastic evenly to each cavity. It provides procedures for starting up and checking hot runner systems, preventing leaks, and checking for issues during production.
Viking title block for sectioned bracket and basesteelerboy9553
This technical drawing shows a base with symmetrical sides labeled A-A and B-B. Section E-E cuts through the center of the base and provides a cross-sectional view scaled at 1:1. The drawing includes metadata identifying the student, drawing name, date, teacher, scale, and class information.
This drawing document contains technical drawings of a bracket, including the student's name, the drawing name, date, scale of the drawing, material, and class/period information. Key details include dimensions and annotations showing the design and shape of the bracket.
This document provides guidelines for product and mold design for plastic parts made through injection molding. It discusses recommendations for nominal wall thickness, thickness variations and transitions, radii for corners, draft angles for ease of ejection, and design of ribs and gussets including appropriate thickness proportions. The guidelines aim to minimize problems during molding and with part performance by addressing factors like stresses, filling, cooling and ejection.
This document provides an introduction to Abhijeet Dies and Tools Pvt. Ltd., a company that manufactures plastic injection molds. It describes the different parts of an injection mold, including the cavity and core assemblies, materials used, runners, gates, inserts, venting, draft angles, and bolting. The mold contains movable and fixed parts that come together to form cavities for injecting plastic and releasing molded parts.
The document provides information about mold, including what mold is, the conditions it needs to grow, common types of indoor mold, and health effects of mold exposure. It notes that mold grows when there is excess moisture and water damage in buildings. The document also discusses testing for mold when signs of water damage or occupant health issues are present and the importance of professional remediation to remove mold and fix any water issues.
EASY TUTORIAL OF HOW TO USE CAPCUT BY: FEBLESS HERNANEFebless Hernane
CapCut is an easy-to-use video editing app perfect for beginners. To start, download and open CapCut on your phone. Tap "New Project" and select the videos or photos you want to edit. You can trim clips by dragging the edges, add text by tapping "Text," and include music by selecting "Audio." Enhance your video with filters and effects from the "Effects" menu. When you're happy with your video, tap the export button to save and share it. CapCut makes video editing simple and fun for everyone!
Maximize Your Content with Beautiful Assets : Content & Asset for Landing Page pmgdscunsri
Figma is a cloud-based design tool widely used by designers for prototyping, UI/UX design, and real-time collaboration. With features such as precision pen tools, grid system, and reusable components, Figma makes it easy for teams to work together on design projects. Its flexibility and accessibility make Figma a top choice in the digital age.
Practical eLearning Makeovers for EveryoneBianca Woods
Welcome to Practical eLearning Makeovers for Everyone. In this presentation, we’ll take a look at a bunch of easy-to-use visual design tips and tricks. And we’ll do this by using them to spruce up some eLearning screens that are in dire need of a new look.
Architectural and constructions management experience since 2003 including 18 years located in UAE.
Coordinate and oversee all technical activities relating to architectural and construction projects,
including directing the design team, reviewing drafts and computer models, and approving design
changes.
Organize and typically develop, and review building plans, ensuring that a project meets all safety and
environmental standards.
Prepare feasibility studies, construction contracts, and tender documents with specifications and
tender analyses.
Consulting with clients, work on formulating equipment and labor cost estimates, ensuring a project
meets environmental, safety, structural, zoning, and aesthetic standards.
Monitoring the progress of a project to assess whether or not it is in compliance with building plans
and project deadlines.
Attention to detail, exceptional time management, and strong problem-solving and communication
skills are required for this role.
Fonts play a crucial role in both User Interface (UI) and User Experience (UX) design. They affect readability, accessibility, aesthetics, and overall user perception.
International Upcycling Research Network advisory board meeting 4Kyungeun Sung
Slides used for the International Upcycling Research Network advisory board 4 (last one). The project is based at De Montfort University in Leicester, UK, and funded by the Arts and Humanities Research Council.
Explore the essential graphic design tools and software that can elevate your creative projects. Discover industry favorites and innovative solutions for stunning design results.