This document provides an overview of various plastic molding processes and their applications. It discusses the main molding types including injection molding, blow molding, compression molding, vacuum forming, rotational molding, and extrusion molding. Injection molding is commonly used in automotive applications due to its ability to produce complex parts with close tolerances and integrated features. Blow molding is suited for hollow plastic containers and bottles. Rotational molding is used for large hollow components like tanks.
This document provides an overview of various manufacturing processes including shaping operations, property-enhancing operations, surface processing, and assembly operations. It discusses primary shaping operations such as casting, forging, machining, and molding. Specific molding processes covered include compression molding, transfer molding, and injection molding. The document also summarizes heat treatment processes and surface treatments like electroplating, anodizing, sandblasting and shot peening.
DESING OF MOULD TOOL & COOLING CHANNEL OPTIMIZATION OF INDUSTRIAL HELMETIjripublishers Ijri
A Plastic Material Is Any of A Wide Range of Synthetic Or Semi-Synthetic Organic Solids That Are Moldable. Plastics
Are Typically Organic Polymers Of High Molecular Mass, But They Often Contain Other Substances. They Are Usually
Synthetic, Most Commonly Derived From Petrochemicals, But Many Are Partially Natural.
Molding Is The Process of Manufacturing By Shaping Liquid Or Pliable Raw Material Using A Rigid Frame Called A Mold
Or Matrix. This It May Have Been Made Using A Pattern Or Model of The Final Object.
Conformal Cooling for plastic injection molding is emerging as the best technology that gives some great advantages for making mold tools. Benefits of Conformal Cooling such as it is improved product quality, savings energy, reduction of scrap, productivity and efficiency.
The document discusses the process of injection moulding. It begins with an introduction to injection moulding, describing how it is used to produce plastic components. It then provides historical background on the development of injection moulding from the late 19th century onwards. The document outlines some of the key advantages of injection moulding, such as high production rates and dimensional accuracy of parts. It also notes some limitations, like high initial costs for moulds and machinery. Finally, it includes a glossary defining technical terms used in injection moulding.
This document discusses various types of polymers and polymer processing techniques. It begins by defining polymers as substances made of repeating molecular units called mers. Polymers are classified as thermoplastics or thermosets depending on whether they can be remelted or undergo further chemical reactions. Common polymer processing techniques include extrusion, injection molding, blow molding, thermoforming, and composites fabrication. The document provides details on the basic mechanisms and applications of these important industrial polymer processes.
Polymer processing involves converting plastic raw materials into finished products. There are primary, secondary, and tertiary processing methods. The selection of a processing method depends on factors like the product design, material properties, production quantity, and cost. Common primary methods include injection molding, extrusion, blow molding, and compression molding. The polymer properties like water absorption, physical form, thermal stability, and melt flow properties affect the suitable processing technique. Proper consideration of these factors ensures efficient processing and quality product manufacture.
This document describes the development of a small plastic injection moulding machine for producing small plastic articles in small-scale industries. It discusses the design, construction, and testing of the machine. The machine is capable of injecting molten resins into a closed, cooled mould to produce plastic products. The design concept, operation, and assembly of component parts are covered. The document also provides details on the working principle of plastic injection moulding, including the various constructional parts of the machine like the PID controller, band heaters, thermocouple, and solid state relay. It discusses the assembly procedure and includes calculations and results from the first trial using polypropylene plastic.
This document provides an overview of various manufacturing processes including shaping operations, property-enhancing operations, surface processing, and assembly operations. It discusses primary shaping operations such as casting, forging, machining, and molding. Specific molding processes covered include compression molding, transfer molding, and injection molding. The document also summarizes heat treatment processes and surface treatments like electroplating, anodizing, sandblasting and shot peening.
DESING OF MOULD TOOL & COOLING CHANNEL OPTIMIZATION OF INDUSTRIAL HELMETIjripublishers Ijri
A Plastic Material Is Any of A Wide Range of Synthetic Or Semi-Synthetic Organic Solids That Are Moldable. Plastics
Are Typically Organic Polymers Of High Molecular Mass, But They Often Contain Other Substances. They Are Usually
Synthetic, Most Commonly Derived From Petrochemicals, But Many Are Partially Natural.
Molding Is The Process of Manufacturing By Shaping Liquid Or Pliable Raw Material Using A Rigid Frame Called A Mold
Or Matrix. This It May Have Been Made Using A Pattern Or Model of The Final Object.
Conformal Cooling for plastic injection molding is emerging as the best technology that gives some great advantages for making mold tools. Benefits of Conformal Cooling such as it is improved product quality, savings energy, reduction of scrap, productivity and efficiency.
The document discusses the process of injection moulding. It begins with an introduction to injection moulding, describing how it is used to produce plastic components. It then provides historical background on the development of injection moulding from the late 19th century onwards. The document outlines some of the key advantages of injection moulding, such as high production rates and dimensional accuracy of parts. It also notes some limitations, like high initial costs for moulds and machinery. Finally, it includes a glossary defining technical terms used in injection moulding.
This document discusses various types of polymers and polymer processing techniques. It begins by defining polymers as substances made of repeating molecular units called mers. Polymers are classified as thermoplastics or thermosets depending on whether they can be remelted or undergo further chemical reactions. Common polymer processing techniques include extrusion, injection molding, blow molding, thermoforming, and composites fabrication. The document provides details on the basic mechanisms and applications of these important industrial polymer processes.
Polymer processing involves converting plastic raw materials into finished products. There are primary, secondary, and tertiary processing methods. The selection of a processing method depends on factors like the product design, material properties, production quantity, and cost. Common primary methods include injection molding, extrusion, blow molding, and compression molding. The polymer properties like water absorption, physical form, thermal stability, and melt flow properties affect the suitable processing technique. Proper consideration of these factors ensures efficient processing and quality product manufacture.
This document describes the development of a small plastic injection moulding machine for producing small plastic articles in small-scale industries. It discusses the design, construction, and testing of the machine. The machine is capable of injecting molten resins into a closed, cooled mould to produce plastic products. The design concept, operation, and assembly of component parts are covered. The document also provides details on the working principle of plastic injection moulding, including the various constructional parts of the machine like the PID controller, band heaters, thermocouple, and solid state relay. It discusses the assembly procedure and includes calculations and results from the first trial using polypropylene plastic.
This document describes the development of a small plastic injection moulding machine for producing small plastic articles in small-scale industries. It discusses the design, construction, and testing of the machine. The machine is capable of injecting molten resins into a closed, cooled mould to produce plastic products. The design concept, operation, and assembly of component parts are covered. The document also provides details on the working principle of plastic injection moulding machines in general and discusses the various constructional parts of the developed machine such as the PID controller, band heaters, thermocouple, and solid state relay.
The document summarizes a student project on improving the quality of plastic injection mould design using mould flow analysis. It describes the objectives of designing and developing an automatic injection moulded product for a glass. Design concepts were developed in CATIA software and analyzed in Plastic Advisor/Pro-E software. The results revealed improvements in the quality of the mould design using concurrent engineering and computer-aided design approaches. The project aimed to improve the design of an existing product and its mould through mould flow analysis.
IRJET- Optimisation Technique for Design and Fabrication of ASTM Based Multit...IRJET Journal
This document describes the design and optimization of a die for manufacturing parts of varying thicknesses according to ASTM standards. Key points:
1) The multi-thickness die has three sections - a male part, holding plate, and female part. Variable thickness parts can be made by inserting shims of different thicknesses between the male and female parts.
2) The die design was optimized to reduce costs by machining cavities directly into the core plate, eliminating the need for a separate cavity plate.
3) Total manufacturing cost, material cost, tooling cost, and processing cost formulas were developed and optimized to reduce the cost per part. Process optimization focused on streamlining machining steps.
Injection molding and blow molding are pivotal processes in mechanical engineering, particularly in the production of plastic components.
These methods enable the efficient mass production of complex plastic parts and products, serving various industries.
Injection molding involves injecting molten plastic into molds to create precise shapes, while blow molding uses air pressure to form hollow plastic objects.
This document discusses various plastic processing techniques. It describes techniques for both thermosets and thermoplastics, including casting, thermoforming, and extrusion molding. Casting involves melting plastic and pouring it into a mold, while thermoforming uses heat and pressure to form plastic sheets. Extrusion molding is a high volume process where plastic is continuously extruded through a die to form parts. The document provides details on the materials, processes, advantages, disadvantages and applications of these different plastic processing techniques.
Rapid injection moulding allows for the quick production of moulds and parts in low volumes using techniques like plaster moulding, rapid prototyping, and CNC machining. It is suited for producing prototypes and testing parts when full production moulds would take too long to create. The document discusses rapid injection moulding techniques and their applications for quickly making moulds and a small number of plastic parts without the time and cost of conventional mould production.
Injection molding is a manufacturing process used to produce plastic parts. It involves injecting molten plastic into a closed mold cavity, allowing it to cool and solidify into the shape of the cavity. There are three main functional units in injection molding: injection, mold, and clamping. Common materials used are thermoplastics like polystyrene, ABS, nylon and polypropylene. Injection molding can produce parts at high volumes for applications like consumer goods, automotive and industrial parts. The document provides details on the injection molding process, types of machines, materials used and applications.
The document discusses various polymer processing techniques. It begins by explaining that the main goal of polymer processing is to produce usable objects and discusses necessary parameters like rheology, heat transfer, mass transfer, and chemical reactions. It then focuses on extrusion, describing it as shaping material by forcing it through a die. Extrusion is used to produce tubes, pipes, sheets, films and other continuous profiles from thermoplastics and some thermosets. Single screw and twin screw extruders are discussed in detail along with their various zones and applications of extrusion processes. Other molding techniques like injection molding and blow molding are also summarized.
Polymer processing involves shaping polymers into usable objects using techniques like extrusion, injection molding, blow molding, and thermoforming. Extrusion is commonly used to produce tubes, pipes, sheets, films and other continuous profiles by forcing molten plastic through a die. A single screw extruder has four main zones - feed, compression, metering, and die which plasticize and homogenize the polymer melt before extruding. Extrusion is widely used for compounding plastics and producing a variety of continuous profiles and films. Injection molding injects molten polymer into a closed, cooled mold to solidify into the desired shape.
A Simulation Study on Warpage Analysis of Injection Moulded Plastic PartDr. Amarjeet Singh
A part to be injection molded is evaluated by simulation for warpage analysis. The plastic part is a supporting plate to be used in the oil filter and it’s made out of nylon material. The effect of various parameters from design to processing of plastic parts is considered and validated by simulation results. The research involved in this was designing mould, computer-aided engineering, simulation analysis, and determination of plastic part processing conditions.
1. The document describes the design optimization and manufacturing plan for a plastic container using injection molding. It discusses selecting high density polyethylene as the material and designing the mold.
2. The key steps of injection molding are described, including feeding plastic pellets into a heated barrel, injecting the molten plastic into the mold, cooling and hardening in the mold shape, and then ejecting the part.
3. The document outlines designing the container dimensions at 40mm x 40mm x 2mm thick and selecting injection molding process parameters to minimize sink marks on the final part.
The document discusses various polymer processing techniques. It begins by explaining that the main goal of polymer processing is to produce usable objects and lists the necessary parameters for processing including flow, heat transfer, mass transfer, and chemical reactions. It then focuses on extrusion, describing it as shaping material by forcing it through a die. Various extrusion techniques are discussed including single screw extrusion, twin screw extrusion, blown film extrusion, co-extrusion, and injection molding. Other processing methods summarized include thermoforming, vacuum forming, rotational molding, calendering, and spinning.
Injection moulding is a manufacturing process that involves injecting material into a mould to produce parts. Main components of an injection moulding machine include a clamping unit, injection unit, drive unit, mould, hydraulic system, and control system. Common materials used are plastics like PVC, ABS, and polypropylene. The injection moulding process involves feeding material into a heated barrel, injecting it into a mould cavity, and allowing it to cool and harden into the desired shape.
Injection moulding is a manufacturing process that involves injecting material into a mould to produce parts. Main components of an injection moulding machine include a clamping unit, injection unit, drive unit, mould, hydraulic system, and control system. Common materials used are plastics like PVC, ABS, and polypropylene. The injection moulding process involves feeding material into a heated barrel, injecting it into a mould cavity, and allowing it to cool and harden into the desired shape.
Rapid heating and cooling in injection mouldingJerinJoseph56
This document discusses rapid heating and cooling mold (RHCM) technology for injection molding. RHCM aims to improve plastic part surface quality without increasing cycle times. It works by heating the mold cavity surface before injection to a high temperature using various heating methods. The mold is then rapidly cooled after filling to solidify the plastic melt and eject the part. RHCM offers benefits like better surface quality and reduced defects, but has disadvantages such as high energy consumption and maintenance costs.
ENHANCEMENT OF MOLD EFFICIENCY USING CONFORMAL COOLINGIRJET Journal
This document discusses conformal cooling in injection molds. It begins by introducing conformal cooling and how it can reduce cooling times compared to traditional cooling methods. It then discusses how conformal cooling channels can be constructed using techniques like laser sintering and 3D printing to better conform to mold cavities. The document reviews several studies that have found conformal cooling can reduce cycle times by up to 50% while improving product quality. It also discusses how conformal cooling helps maintain a more consistent temperature in molds compared to other cooling techniques. In summary, conformal cooling is able to more efficiently cool molds through customized cooling channel designs, reducing production costs by shortening cycle times without compromising part quality.
1) Blow molding is a plastic manufacturing process where a hollow plastic object is formed by blowing air into a plastic preform that is clamped inside a mold cavity.
2) There are three main types of blow molding: extrusion blow molding, injection blow molding, and stretch blow molding.
3) Extrusion blow molding begins with extruding a tube of molten plastic which is then clamped into an open mold and inflated by air pressure to take the shape of the mold cavity.
Software Engineering and Project Management - Software Testing + Agile Method...Prakhyath Rai
Software Testing: A Strategic Approach to Software Testing, Strategic Issues, Test Strategies for Conventional Software, Test Strategies for Object -Oriented Software, Validation Testing, System Testing, The Art of Debugging.
Agile Methodology: Before Agile – Waterfall, Agile Development.
Generative AI Use cases applications solutions and implementation.pdfmahaffeycheryld
Generative AI solutions encompass a range of capabilities from content creation to complex problem-solving across industries. Implementing generative AI involves identifying specific business needs, developing tailored AI models using techniques like GANs and VAEs, and integrating these models into existing workflows. Data quality and continuous model refinement are crucial for effective implementation. Businesses must also consider ethical implications and ensure transparency in AI decision-making. Generative AI's implementation aims to enhance efficiency, creativity, and innovation by leveraging autonomous generation and sophisticated learning algorithms to meet diverse business challenges.
https://www.leewayhertz.com/generative-ai-use-cases-and-applications/
This document describes the development of a small plastic injection moulding machine for producing small plastic articles in small-scale industries. It discusses the design, construction, and testing of the machine. The machine is capable of injecting molten resins into a closed, cooled mould to produce plastic products. The design concept, operation, and assembly of component parts are covered. The document also provides details on the working principle of plastic injection moulding machines in general and discusses the various constructional parts of the developed machine such as the PID controller, band heaters, thermocouple, and solid state relay.
The document summarizes a student project on improving the quality of plastic injection mould design using mould flow analysis. It describes the objectives of designing and developing an automatic injection moulded product for a glass. Design concepts were developed in CATIA software and analyzed in Plastic Advisor/Pro-E software. The results revealed improvements in the quality of the mould design using concurrent engineering and computer-aided design approaches. The project aimed to improve the design of an existing product and its mould through mould flow analysis.
IRJET- Optimisation Technique for Design and Fabrication of ASTM Based Multit...IRJET Journal
This document describes the design and optimization of a die for manufacturing parts of varying thicknesses according to ASTM standards. Key points:
1) The multi-thickness die has three sections - a male part, holding plate, and female part. Variable thickness parts can be made by inserting shims of different thicknesses between the male and female parts.
2) The die design was optimized to reduce costs by machining cavities directly into the core plate, eliminating the need for a separate cavity plate.
3) Total manufacturing cost, material cost, tooling cost, and processing cost formulas were developed and optimized to reduce the cost per part. Process optimization focused on streamlining machining steps.
Injection molding and blow molding are pivotal processes in mechanical engineering, particularly in the production of plastic components.
These methods enable the efficient mass production of complex plastic parts and products, serving various industries.
Injection molding involves injecting molten plastic into molds to create precise shapes, while blow molding uses air pressure to form hollow plastic objects.
This document discusses various plastic processing techniques. It describes techniques for both thermosets and thermoplastics, including casting, thermoforming, and extrusion molding. Casting involves melting plastic and pouring it into a mold, while thermoforming uses heat and pressure to form plastic sheets. Extrusion molding is a high volume process where plastic is continuously extruded through a die to form parts. The document provides details on the materials, processes, advantages, disadvantages and applications of these different plastic processing techniques.
Rapid injection moulding allows for the quick production of moulds and parts in low volumes using techniques like plaster moulding, rapid prototyping, and CNC machining. It is suited for producing prototypes and testing parts when full production moulds would take too long to create. The document discusses rapid injection moulding techniques and their applications for quickly making moulds and a small number of plastic parts without the time and cost of conventional mould production.
Injection molding is a manufacturing process used to produce plastic parts. It involves injecting molten plastic into a closed mold cavity, allowing it to cool and solidify into the shape of the cavity. There are three main functional units in injection molding: injection, mold, and clamping. Common materials used are thermoplastics like polystyrene, ABS, nylon and polypropylene. Injection molding can produce parts at high volumes for applications like consumer goods, automotive and industrial parts. The document provides details on the injection molding process, types of machines, materials used and applications.
The document discusses various polymer processing techniques. It begins by explaining that the main goal of polymer processing is to produce usable objects and discusses necessary parameters like rheology, heat transfer, mass transfer, and chemical reactions. It then focuses on extrusion, describing it as shaping material by forcing it through a die. Extrusion is used to produce tubes, pipes, sheets, films and other continuous profiles from thermoplastics and some thermosets. Single screw and twin screw extruders are discussed in detail along with their various zones and applications of extrusion processes. Other molding techniques like injection molding and blow molding are also summarized.
Polymer processing involves shaping polymers into usable objects using techniques like extrusion, injection molding, blow molding, and thermoforming. Extrusion is commonly used to produce tubes, pipes, sheets, films and other continuous profiles by forcing molten plastic through a die. A single screw extruder has four main zones - feed, compression, metering, and die which plasticize and homogenize the polymer melt before extruding. Extrusion is widely used for compounding plastics and producing a variety of continuous profiles and films. Injection molding injects molten polymer into a closed, cooled mold to solidify into the desired shape.
A Simulation Study on Warpage Analysis of Injection Moulded Plastic PartDr. Amarjeet Singh
A part to be injection molded is evaluated by simulation for warpage analysis. The plastic part is a supporting plate to be used in the oil filter and it’s made out of nylon material. The effect of various parameters from design to processing of plastic parts is considered and validated by simulation results. The research involved in this was designing mould, computer-aided engineering, simulation analysis, and determination of plastic part processing conditions.
1. The document describes the design optimization and manufacturing plan for a plastic container using injection molding. It discusses selecting high density polyethylene as the material and designing the mold.
2. The key steps of injection molding are described, including feeding plastic pellets into a heated barrel, injecting the molten plastic into the mold, cooling and hardening in the mold shape, and then ejecting the part.
3. The document outlines designing the container dimensions at 40mm x 40mm x 2mm thick and selecting injection molding process parameters to minimize sink marks on the final part.
The document discusses various polymer processing techniques. It begins by explaining that the main goal of polymer processing is to produce usable objects and lists the necessary parameters for processing including flow, heat transfer, mass transfer, and chemical reactions. It then focuses on extrusion, describing it as shaping material by forcing it through a die. Various extrusion techniques are discussed including single screw extrusion, twin screw extrusion, blown film extrusion, co-extrusion, and injection molding. Other processing methods summarized include thermoforming, vacuum forming, rotational molding, calendering, and spinning.
Injection moulding is a manufacturing process that involves injecting material into a mould to produce parts. Main components of an injection moulding machine include a clamping unit, injection unit, drive unit, mould, hydraulic system, and control system. Common materials used are plastics like PVC, ABS, and polypropylene. The injection moulding process involves feeding material into a heated barrel, injecting it into a mould cavity, and allowing it to cool and harden into the desired shape.
Injection moulding is a manufacturing process that involves injecting material into a mould to produce parts. Main components of an injection moulding machine include a clamping unit, injection unit, drive unit, mould, hydraulic system, and control system. Common materials used are plastics like PVC, ABS, and polypropylene. The injection moulding process involves feeding material into a heated barrel, injecting it into a mould cavity, and allowing it to cool and harden into the desired shape.
Rapid heating and cooling in injection mouldingJerinJoseph56
This document discusses rapid heating and cooling mold (RHCM) technology for injection molding. RHCM aims to improve plastic part surface quality without increasing cycle times. It works by heating the mold cavity surface before injection to a high temperature using various heating methods. The mold is then rapidly cooled after filling to solidify the plastic melt and eject the part. RHCM offers benefits like better surface quality and reduced defects, but has disadvantages such as high energy consumption and maintenance costs.
ENHANCEMENT OF MOLD EFFICIENCY USING CONFORMAL COOLINGIRJET Journal
This document discusses conformal cooling in injection molds. It begins by introducing conformal cooling and how it can reduce cooling times compared to traditional cooling methods. It then discusses how conformal cooling channels can be constructed using techniques like laser sintering and 3D printing to better conform to mold cavities. The document reviews several studies that have found conformal cooling can reduce cycle times by up to 50% while improving product quality. It also discusses how conformal cooling helps maintain a more consistent temperature in molds compared to other cooling techniques. In summary, conformal cooling is able to more efficiently cool molds through customized cooling channel designs, reducing production costs by shortening cycle times without compromising part quality.
1) Blow molding is a plastic manufacturing process where a hollow plastic object is formed by blowing air into a plastic preform that is clamped inside a mold cavity.
2) There are three main types of blow molding: extrusion blow molding, injection blow molding, and stretch blow molding.
3) Extrusion blow molding begins with extruding a tube of molten plastic which is then clamped into an open mold and inflated by air pressure to take the shape of the mold cavity.
Software Engineering and Project Management - Software Testing + Agile Method...Prakhyath Rai
Software Testing: A Strategic Approach to Software Testing, Strategic Issues, Test Strategies for Conventional Software, Test Strategies for Object -Oriented Software, Validation Testing, System Testing, The Art of Debugging.
Agile Methodology: Before Agile – Waterfall, Agile Development.
Generative AI Use cases applications solutions and implementation.pdfmahaffeycheryld
Generative AI solutions encompass a range of capabilities from content creation to complex problem-solving across industries. Implementing generative AI involves identifying specific business needs, developing tailored AI models using techniques like GANs and VAEs, and integrating these models into existing workflows. Data quality and continuous model refinement are crucial for effective implementation. Businesses must also consider ethical implications and ensure transparency in AI decision-making. Generative AI's implementation aims to enhance efficiency, creativity, and innovation by leveraging autonomous generation and sophisticated learning algorithms to meet diverse business challenges.
https://www.leewayhertz.com/generative-ai-use-cases-and-applications/
Design and optimization of ion propulsion dronebjmsejournal
Electric propulsion technology is widely used in many kinds of vehicles in recent years, and aircrafts are no exception. Technically, UAVs are electrically propelled but tend to produce a significant amount of noise and vibrations. Ion propulsion technology for drones is a potential solution to this problem. Ion propulsion technology is proven to be feasible in the earth’s atmosphere. The study presented in this article shows the design of EHD thrusters and power supply for ion propulsion drones along with performance optimization of high-voltage power supply for endurance in earth’s atmosphere.
Embedded machine learning-based road conditions and driving behavior monitoringIJECEIAES
Car accident rates have increased in recent years, resulting in losses in human lives, properties, and other financial costs. An embedded machine learning-based system is developed to address this critical issue. The system can monitor road conditions, detect driving patterns, and identify aggressive driving behaviors. The system is based on neural networks trained on a comprehensive dataset of driving events, driving styles, and road conditions. The system effectively detects potential risks and helps mitigate the frequency and impact of accidents. The primary goal is to ensure the safety of drivers and vehicles. Collecting data involved gathering information on three key road events: normal street and normal drive, speed bumps, circular yellow speed bumps, and three aggressive driving actions: sudden start, sudden stop, and sudden entry. The gathered data is processed and analyzed using a machine learning system designed for limited power and memory devices. The developed system resulted in 91.9% accuracy, 93.6% precision, and 92% recall. The achieved inference time on an Arduino Nano 33 BLE Sense with a 32-bit CPU running at 64 MHz is 34 ms and requires 2.6 kB peak RAM and 139.9 kB program flash memory, making it suitable for resource-constrained embedded systems.
Digital Twins Computer Networking Paper Presentation.pptxaryanpankaj78
A Digital Twin in computer networking is a virtual representation of a physical network, used to simulate, analyze, and optimize network performance and reliability. It leverages real-time data to enhance network management, predict issues, and improve decision-making processes.
Prediction of Electrical Energy Efficiency Using Information on Consumer's Ac...PriyankaKilaniya
Energy efficiency has been important since the latter part of the last century. The main object of this survey is to determine the energy efficiency knowledge among consumers. Two separate districts in Bangladesh are selected to conduct the survey on households and showrooms about the energy and seller also. The survey uses the data to find some regression equations from which it is easy to predict energy efficiency knowledge. The data is analyzed and calculated based on five important criteria. The initial target was to find some factors that help predict a person's energy efficiency knowledge. From the survey, it is found that the energy efficiency awareness among the people of our country is very low. Relationships between household energy use behaviors are estimated using a unique dataset of about 40 households and 20 showrooms in Bangladesh's Chapainawabganj and Bagerhat districts. Knowledge of energy consumption and energy efficiency technology options is found to be associated with household use of energy conservation practices. Household characteristics also influence household energy use behavior. Younger household cohorts are more likely to adopt energy-efficient technologies and energy conservation practices and place primary importance on energy saving for environmental reasons. Education also influences attitudes toward energy conservation in Bangladesh. Low-education households indicate they primarily save electricity for the environment while high-education households indicate they are motivated by environmental concerns.
Introduction- e - waste – definition - sources of e-waste– hazardous substances in e-waste - effects of e-waste on environment and human health- need for e-waste management– e-waste handling rules - waste minimization techniques for managing e-waste – recycling of e-waste - disposal treatment methods of e- waste – mechanism of extraction of precious metal from leaching solution-global Scenario of E-waste – E-waste in India- case studies.
Software Engineering and Project Management - Introduction, Modeling Concepts...Prakhyath Rai
Introduction, Modeling Concepts and Class Modeling: What is Object orientation? What is OO development? OO Themes; Evidence for usefulness of OO development; OO modeling history. Modeling
as Design technique: Modeling, abstraction, The Three models. Class Modeling: Object and Class Concept, Link and associations concepts, Generalization and Inheritance, A sample class model, Navigation of class models, and UML diagrams
Building the Analysis Models: Requirement Analysis, Analysis Model Approaches, Data modeling Concepts, Object Oriented Analysis, Scenario-Based Modeling, Flow-Oriented Modeling, class Based Modeling, Creating a Behavioral Model.
Gas agency management system project report.pdfKamal Acharya
The project entitled "Gas Agency" is done to make the manual process easier by making it a computerized system for billing and maintaining stock. The Gas Agencies get the order request through phone calls or by personal from their customers and deliver the gas cylinders to their address based on their demand and previous delivery date. This process is made computerized and the customer's name, address and stock details are stored in a database. Based on this the billing for a customer is made simple and easier, since a customer order for gas can be accepted only after completing a certain period from the previous delivery. This can be calculated and billed easily through this. There are two types of delivery like domestic purpose use delivery and commercial purpose use delivery. The bill rate and capacity differs for both. This can be easily maintained and charged accordingly.
Redefining brain tumor segmentation: a cutting-edge convolutional neural netw...IJECEIAES
Medical image analysis has witnessed significant advancements with deep learning techniques. In the domain of brain tumor segmentation, the ability to
precisely delineate tumor boundaries from magnetic resonance imaging (MRI)
scans holds profound implications for diagnosis. This study presents an ensemble convolutional neural network (CNN) with transfer learning, integrating
the state-of-the-art Deeplabv3+ architecture with the ResNet18 backbone. The
model is rigorously trained and evaluated, exhibiting remarkable performance
metrics, including an impressive global accuracy of 99.286%, a high-class accuracy of 82.191%, a mean intersection over union (IoU) of 79.900%, a weighted
IoU of 98.620%, and a Boundary F1 (BF) score of 83.303%. Notably, a detailed comparative analysis with existing methods showcases the superiority of
our proposed model. These findings underscore the model’s competence in precise brain tumor localization, underscoring its potential to revolutionize medical
image analysis and enhance healthcare outcomes. This research paves the way
for future exploration and optimization of advanced CNN models in medical
imaging, emphasizing addressing false positives and resource efficiency.
1. 1
PROCESS KNOWLEDGE / MOULDING / SL1
Moulding Pressing Welding Forging Machining
Casting
Basics of Moulding
2. 2
PROCESS KNOWLEDGE / MOULDING / SL1
Brief agenda
Process knowledge on Moulding – SL1 ( Module pilot )
1.
2.
3.
Pre-test on basics of Moulding process
Module presentation with exercises
Post-test
3. 3
PROCESS KNOWLEDGE / MOULDING / SL1
After completing this training program on Moulding process
you will be able to explain
different types of Moulding process
key process controls
key terminologies
manufacturing facilities
and Choose
appropriate process for a part with given data
4. 4
PROCESS KNOWLEDGE / MOULDING / SL1
What do you think when you hear plastic products ?
PET bottles and plastic bags,
contact lenses and spectacles
frames we use daily, tableware,
optical discs such as CD and DVD,
refrigerator and TV cabinets,
housings of portable telephones
and personal computers, and so
on -- a great variety of goods.
Plastic is used for a wide variety
of things ranging daily
necessities such as packaging
materials,various parts of
household appliances,
construction materials, and
automotive parts, exteriors, and
interiors, to those that are used
in hidden places.
12. 12
PROCESS KNOWLEDGE / MOULDING / SL1
The usage of plastics for various applications is
increasing from house hold items to high performance
aeronautical applications.
These plastics are getting shaped by Moulding process
13. 13
PROCESS KNOWLEDGE / MOULDING / SL1
What is Process ?
It is the sequence of part operations necessary for the
complete manufacture of a part
Input
material
Melting Pouring Cooling Fettling Final
casting
For example, in a casting process
Process
14. 14
PROCESS KNOWLEDGE / MOULDING / SL1
General manufacturing process in TVS-M
Casting process
Moulding process
Forging process
Machining process
Heat treatment process
Pressing process
Welding process
Painting process
Plating process
16. 16
PROCESS KNOWLEDGE / MOULDING / SL1
Moulding process
Definition of Moulding process
A plastic / rubber object obtained by allowing polymer to shape in the
mould
General Moulding process flow – Injection type
Input
material-
Granules
Melting of
plastic
granules
Injection
of melt
Cooling De-
flashing
Final part
Few types of Moulding process
Extrusion
Moulding
Blow
Moulding
Injection
Moulding
Vacuum
forming
Compressio
n Moulding
Transfer
Moulding
17. 17
PROCESS KNOWLEDGE / MOULDING / SL1
Why Plastics & Moulding process ?
Production of complex shapes
with close tolerances.
Little or no machining is required.
Integrated fastening elements,
such as bosses and studs.
Aesthetically superior and good
weather resistance
Light weight
18. 18
PROCESS KNOWLEDGE / MOULDING / SL1
Major types of Moulding process
Moulding
process
Extrusion
Moulding
Blow
Moulding
Injection
Moulding
Vacuum
forming
Compression
Moulding
Rotational
Moulding
20. 20
PROCESS KNOWLEDGE / MOULDING / SL1
What is Injection Moulding ?
A powder or pellet is liquefied, injected into a mold, cooled under
pressure, and ejected.
Injection Moulding
22. 22
PROCESS KNOWLEDGE / MOULDING / SL1
Injection Moulding process flow
Raw material
(Granules)
Transfer to
hopper
Melting in
injection unit
Clamp
pressure
applied
Injection of
melt into
mould
Hold on
phase
Cooling Mould
opening
De-gating &
De-flashing
Final
Inspection
Part ejection
Mould
closing
23. 23
PROCESS KNOWLEDGE / MOULDING / SL1
Application of Injection Moulded parts
Automobile parts
Fenders
Covers
Air cleaner assembly
Dash boards etc.,
Toys
Other industrial parts
Best option for high productivity and production quantity and part accuracy
25. 25
PROCESS KNOWLEDGE / MOULDING / SL1
What is Blow Moulding ?
The process of forming hollow articles by expanding a hot plastic
element called a parison against the internal surfaces of a mold.
Extrusion blow Moulding Injection blow Moulding
Injection stretch Moulding
26. 26
PROCESS KNOWLEDGE / MOULDING / SL1
Blow Moulding process flow
Raw material
(Granules)
Transfer to
hopper
Melting in
injection unit
Injection of
melt into
parison
Parison passed
through mould
Mould closes Parison is cut Mould opens Part is
removed
Air is blown
29. 29
PROCESS KNOWLEDGE / MOULDING / SL1
Application of Blow Moulded parts
Automotive fuel tanks
Bottles and containers
Best option for hollow parts - both symmetric / asymmetric parts
31. 31
PROCESS KNOWLEDGE / MOULDING / SL1
What is Compression Moulding ?
Slug is placed in mould and heated under pressure in the Mould cavity.
When reaction is complete, product is cooled and ejected.
Mould
heating
Hydraulic press
operation
Compression to
mould shape
Placing the
slug
32. 32
PROCESS KNOWLEDGE / MOULDING / SL1
Application of compression moulded items
Rubber grommets,cushions
Electrical switch and fuse boxes
Domestic electrical equipment
Microwave containers
Tableware
Business machine housings
Gas and electricity meter housing
Dish aerials
Original process for 'Bakelite'. Slow process and wasteful for 'flash'.
34. 34
PROCESS KNOWLEDGE / MOULDING / SL1
What is Vacuum forming?
The process involves heating a plastic sheet until soft and then
draping it over a mould. A vacuum is applied sucking the sheet into
the mould. The sheet is then ejected from the mould
Mould
Plastic
sheet
Vacuum
creation
Vacuum Forming
35. 35
PROCESS KNOWLEDGE / MOULDING / SL1
Application of Vacuum formed parts
Main body of a land yacht
Wheel guard and control cover
Domestic bath & wash basin
Truck Dash Board
Battery Cover
Inner Wheel Arch
Machine Cover
Electric golf trolley body
Low tooling cost & best option for Proto-typing & low volume large parts
37. 37
PROCESS KNOWLEDGE / MOULDING / SL1
What is Rotational Moulding?
Resin loaded in the mould it is heated. Simultaneously the mould is
rotated and the melted resin fuses into inner surface of the moulds.
The mould is cooled and the solidified part is taken out.
41. 41
PROCESS KNOWLEDGE / MOULDING / SL1
What is Extrusion Moulding?
Molten plastic is forced through a die, which contains a hole whose
shape corresponds to that of the required article. The extrusion will
then be cut into lengths
42. 42
PROCESS KNOWLEDGE / MOULDING / SL1
Extrusion Moulding process
Pipe extrusion
Sheet extrusion
43. 43
PROCESS KNOWLEDGE / MOULDING / SL1
Application of Extrusion Moulded parts
Pipes & hoses (continues process)
Insulate coating wires
Windows and door beadings (PVC)
Flat plastic sheets
Low tooling cost for large components and continuous process
45. 45
PROCESS KNOWLEDGE / MOULDING / SL1
Key process controls
S # Parameter Definition Why To Control Application
Details
1 Melt
Temperature
Temperature of
melt at the time
of injection
Significant impact on
Mould filling
Sink mark
Flow marks
•
•
•
Injection
Moulding
2. Mould
Temperature
Mean
temperature of
the Mould core &
cavity halves
during production.
Significant impact on
Shrinkage
Flow of plastic
Warpage
•
•
•
Injection
Moulding,
Compression
Moulding,
Blow
Moulding
3. Pre-heating
(Plastic
granules)
Heating the
plastic granules
before processing
To remove moisture content.
Moisture content causes
significant reduction in
Physical Properties.It also
produces silver streaks on
the part.
Injection
Moulding,
Blow
Moulding
(Nylon, PC,
ABS)
~ 180-240° c
~ 60-100° c
46. 46
PROCESS KNOWLEDGE / MOULDING / SL1
Key process controls
S.No. Parameter Definition Why To Control Application
Details
4. Filling Time The time required to
fill the complete
cavity with plastic
melt.
Significant impact on
Shrinkage
Moulding filling
Short Moulding
•
•
•
Injection
Moulding
5. Hold Time The time for which
the holding /
packing pressure is
retained after filling
phase
Significant impact on
Shrinkage
•
Injection
Moulding
6 Cooling
time
The time for which
the part is allowed
to cool inside the
mould
To avoid
Warpage
•
Injection
Moulding,
Blow Moulding,
Compression
Moulding
47. 47
PROCESS KNOWLEDGE / MOULDING / SL1
Summary
Blow Moulding process is opted for making bottles, containers and
other hollow parts like fuel tank, boxes etc.,
General types of Moulding
Injection Moulding, Blow Moulding, Rotational Moulding, Vacuum forming,
Compression Moulding, Extrusion Moulding etc.,
Plastics & Moulding process is selected for parts with complicated shapes,
to reduce weight, to improve aesthetics and for integrating different
function like fastening, bosses etc.,`
Injection Moulding is the most common process used in automobile
industry
48. 48
PROCESS KNOWLEDGE / MOULDING / SL1
Summary
Rotational Moulding is used producing big barrels. In this process the
entire mould is rotated to make the plastic melt to fuse along the mould
Vacuum forming generally used for prototyping and for small volume
large parts.
Compression Moulding is generally used for rubber parts,plates and
other small bushes
Key process controls in a Moulding process are
Melt temperature, Mould temperature, Filling time, injection pressure, hold
time etc.,
50. 50
PROCESS KNOWLEDGE / MOULDING / SL1
General Moulding process terminologies
Mould related
Core,
Cavity
Ejector plates
Back plates
Cooling channels
Machine related
Clamp & Clamp force
Platen
Tie bars
Hopper
Shot capacity
Part related
Runner & Sprue
Gate
Draft
Parting line
Plant terminology – Leaf, stem, root, seed etc.,
51. 51
PROCESS KNOWLEDGE / MOULDING / SL1
Moulding process terminologies – Mould related
Core
One of the two halves which form
the required hollow shape to
produce part.
52. 52
PROCESS KNOWLEDGE / MOULDING / SL1
Cavity
The blocks containing the cavity,
runners and sprue
Moulding process terminologies – Mould related
53. 53
PROCESS KNOWLEDGE / MOULDING / SL1
Moulding process terminologies – Mould related
Sprue
Sprue is the channel / passage created in the mould which transport
melt from entrance of the mould to runners.
54. 54
PROCESS KNOWLEDGE / MOULDING / SL1
Moulding process terminologies – Mould related
Types of Sprue
Cold sprue and runners remain attached to the part
and required to be removed as a post moulding
operation called degating
In case of hot sprue, the sprue always remains in the
molten condition inside the mould.This reduces the
wastages thereby increasing the raw material
utilisation.
Clampingring Adjustingring Heaterelement Spruetip Spruebush Thermocouple
Injection
point
Injection
point
Cold sprue
Hot sprue
55. 55
PROCESS KNOWLEDGE / MOULDING / SL1
Moulding process terminologies – Part related
Runners
Channels cut interior to the mold
which transport the melt from the
entrance to the mold to the
entrance to the cavity.
Gate
The narrowed link between the
runner and the cavity.
The melt enters the cavity at the
gate.
Part
Sprue
Gate
Runner
Part
56. 56
PROCESS KNOWLEDGE / MOULDING / SL1
Moulding cycle
Moulding process terminologies – Mould related
57. 57
PROCESS KNOWLEDGE / MOULDING / SL1
General Moulding process terminologies
Parting line
A line generated by the butting of
core and cavity halves of the mould.
Parting line
58. 58
PROCESS KNOWLEDGE / MOULDING / SL1
General Moulding process terminologies
Moulding Direction
The direction in which the mould
opens and closes.
Also, called ejection direction as
the component is ejected from the
mould in same direction.
Moulding
direction
59. 59
PROCESS KNOWLEDGE / MOULDING / SL1
General Moulding process terminologies
Draft
The taper given to the mould in
order to facilitate easy removal of
part
60. 60
PROCESS KNOWLEDGE / MOULDING / SL1
Ejector plates
Plate carrying ejector pins used to
eject the component after
moulding.
Ejector plate moves forward to
eject the component.
Moulding process terminologies – Mould related
61. 61
PROCESS KNOWLEDGE / MOULDING / SL1
Moulding process terminologies – Mould related
Back plates
The plates supporting the core and cavity.
Used to mount the mould onto the machine.
Back plate
Back plate
62. 62
PROCESS KNOWLEDGE / MOULDING / SL1
Cooling Channels
The channels are drilled in the core and cavity.
The water is circulated through these channels to cool the part
and maintain the mould temperature.
Moulding process terminologies – Mould related
63. 63
PROCESS KNOWLEDGE / MOULDING / SL1
Moulding process terminologies – Machine related
Platen
The structural part of the machine on which the mould is mounted.
Tie bars
Four tie bars guide the movable platen during opening and closing
of mould.
Platen -
Stationary
Platen -
Movable
Force
64. 64
PROCESS KNOWLEDGE / MOULDING / SL1
Moulding process terminologies – Machine related
Clamp force
The clamping force is exerted to prevent the opening of mould
during injection phase.
Clamping force should always be more than the seperating force
created during injection.
Force
65. 65
PROCESS KNOWLEDGE / MOULDING / SL1
Moulding process terminologies – Machine related
Shot capacity
Express in terms of grams is maximum amount of melt that can be
injected by the machine.
Melt
66. 66
PROCESS KNOWLEDGE / MOULDING / SL1
Moulding process terminologies – Machine related
Hopper
Mounted above the injection unit
and stores the granules for feeding
into injection unit.
67. 67
PROCESS KNOWLEDGE / MOULDING / SL1
General Moulding Problems
Sink mark
Weld / Meld lines
Flash
Air traps
Voids
Flow marks
Scoring marks
Silver streaks
Warpage
Short Moulding
68. 68
PROCESS KNOWLEDGE / MOULDING / SL1
Sink mark
An indentation on the surface of the
part as a result of significant local
change in wall section. The mark
will occur in the thicker area.
General Moulding problems
Causes
The thickness of ribs or boss is more
Injection pressure too low
Short of shot capacity
Mould temperature too high
Gate too small,melt too hot
69. 69
PROCESS KNOWLEDGE / MOULDING / SL1
General Moulding problems
Weld lines
The intersection of two confronting
flow fronts creating areas of local
weakness. Weld lines should be
positioned in the least sensitive areas.
Causes
Wrong part and gate design
Injection pressure and/or speed too low
Insufficient venting
Mould and/or melt too cold
Distance from gate too excessive
70. 70
PROCESS KNOWLEDGE / MOULDING / SL1
General Moulding problems
Meld lines
The juncture of two flow fronts moving
in the same direction rather than in
opposite directions. Meld lines should
be positioned in least sensitive areas.
Causes
Wrong part and gate design
Injection pressure and/or speed too
low
Insufficient venting
Mould and/or melt too cold
Distance from gate too excessive
71. 71
PROCESS KNOWLEDGE / MOULDING / SL1
General Moulding problems
Flash
Excess material retained by the part
along the parting line.
Causes
Clamping force (machine tonnage)
too low
Injection pressure too high
Melt too hot,viscosity too low
Damaged mould surface at parting
line
72. 72
PROCESS KNOWLEDGE / MOULDING / SL1
General Moulding problems
Air traps
Small air or gas filled hollows in the
moulding
Causes
Trapped gases in the mould
Insufficient venting
Mould temperature too low
Thin to thick transition
73. 73
PROCESS KNOWLEDGE / MOULDING / SL1
General Moulding problems
Voids
An unfilled space within a solid
material.
Causes
Part wall too thick
Melt temperature too high
Injection speed too high
Injection pressure too low
Mould temperature too low
74. 74
PROCESS KNOWLEDGE / MOULDING / SL1
General Moulding problems
Flow marks
Causes
Mould too cold
Melt temperature too low
MFI of material very low
Wrong gate location
This occurs due to restriction to flow of
melt resulting in cloudy appearance on
the part surface
75. 75
PROCESS KNOWLEDGE / MOULDING / SL1
General Moulding problems
Scoring marks
This scratch marks observed on the part due to rubbing of part against
mould wall during ejection.
Causes
The draft angle is inadequate
Poor surface finish of the cavity
76. 76
PROCESS KNOWLEDGE / MOULDING / SL1
General Moulding problems
Streaks
Appearance of large,dull and lamellar
areas on the moulding
Causes
Moisture content in the granules
Material contamination by other resin
77. 77
PROCESS KNOWLEDGE / MOULDING / SL1
General Moulding problems
Short moulding
Resulting from incomplete filling of
mould.All parts of moulding are not
formed
Causes
Injection pressure and speed too low
Mould temperature too low
Melt temperature too low
Melt Viscosity too high
Poor mould venting
Wrong gate design
78. 78
PROCESS KNOWLEDGE / MOULDING / SL1
General Moulding problems
Warpage
A dimensional deformation of the
moulding resulting from frozen-in
stress
Causes
Wrong part design
Part too heavy
Insufficient cooling
Wrong gate location
Wrong material choice
79. 79
PROCESS KNOWLEDGE / MOULDING / SL1
Summary
General terminologies used in Moulding process
Mould related
Core,
Cavity
Ejector plates
Back plates
Machine related
Clamp & Clamp force
Platen
Tie bars
Hopper
Shot capacity
Part related
Runner & Sprue
Gate
80. 80
PROCESS KNOWLEDGE / MOULDING / SL1
Summary
General problems / defects in Moulding
Sink mark
Weld / Meld lines
Flash
Air traps
Voids
Flow marks
Scoring marks
Silver streaks
Warpage
Short Moulding
81. 81
PROCESS KNOWLEDGE / MOULDING / SL1
Exercise
Identify the problems in the
given Moulding parts ?
82. 82
PROCESS KNOWLEDGE / MOULDING / SL1
Moulds and Equipments
Moulds and Equipments
of Moulding process
of Moulding process
83. 83
PROCESS KNOWLEDGE / MOULDING / SL1
Moulds used for Moulding process
Moulds are made in two halves called the core and cavity.
The core and cavity fit together to form the required cavity which
fills with melt.
The mould are made of alloy tool steels. These tool steels have the
strength, wear resistance, and thermal shock resistance to
withstand thousands of melt injections.
84. 84
PROCESS KNOWLEDGE / MOULDING / SL1
Types of Moulds used for Moulding process
Single cavity
mould
Multi cavity
mould
Family Mould
Moulds
85. 85
PROCESS KNOWLEDGE / MOULDING / SL1
Types of dies used for Moulding process
Single cavity mould
Single cavity to
produce one
component
Multiple cavity
to produce a
number of
identical parts
Multi cavity mould
Family mould
Family mould to
produce different
parts at one time
86. 86
PROCESS KNOWLEDGE / MOULDING / SL1
Types of machines used for Moulding
Injection Moulding machine
Blow Moulding machine
Vacuum forming machine
Compression Moulding machine
Extrusion Moulding machine
87. 87
PROCESS KNOWLEDGE / MOULDING / SL1
Injection Moulding machine – Key specifications
Clamping force in tonnes
Shot capacity
Injection pressure & speed
Screw diameter
Tie bar distance
93. 93
PROCESS KNOWLEDGE / MOULDING / SL1
Summary
General types of Moulding machines
Injection Moulding machine
Blow Moulding machine
Vacuum forming machine
Compression Moulding machine
Rotational Moulding machine
Extrusion Moulding machine
General types of dies used for Moulding process
Single cavity mould
Multi cavity mould
Family mould
94. 94
PROCESS KNOWLEDGE / MOULDING / SL1
Supplier
selection
Manufacturing
process
selection
Performanc
e
requiremen
t
Type of raw
material
Size
Shape
Thickness
Tolerance
Surface
finish
Operational
cost
Manufactur
ing cost
cost
Tooling
cost
Quantity
required
Developme
nt lead-
time
Raw
material &
its
properties
Dimensional
requirement
Economic
consideratio
ns
Environmen
t & safety
Workplace
hazard
Pollution –
Air,water,
noise
Raw
material &
its
properties
Factors considered for Mfg. process selection
95. 95
PROCESS KNOWLEDGE / MOULDING / SL1
Influencing factor : Performance requirement
Process selection based on Raw material
97. 97
PROCESS KNOWLEDGE / MOULDING / SL1
Properties:
Semi-rigid
Translucent
Good chemical resistance
Tough
Good fatigue resistance
Integral hinge property
Good heat resistance
Raw material properties & applications
Poly Propylene (PP)
Limitations:
Poor Dimensional Stability
Poor Paintabililty
Cannot withstand higher temperature
Applications in Two Wheelers:
Rear Fender
Seat Base
Air Cleaner Housing
Mud Flaps
98. 98
PROCESS KNOWLEDGE / MOULDING / SL1
Properties:
Rigid
Glossy
Tough
Good low temperature properties
Good dimensional stability
Excellent Paintability
Easily Electroplated
Low creep
Acrylonitrile Butadiene Styrene (ABS)
Limitations:
Low Heat Distortion Temperature
High Cost
Raw material properties & applications
Applications in Two Wheelers:
Cover Frames
Tail Covers
Body Panels
99. 99
PROCESS KNOWLEDGE / MOULDING / SL1
Moulding process selection based on
Quality aspects
Cost aspects
Delivery aspects
100. 100
PROCESS KNOWLEDGE / MOULDING / SL1
Moulding process selection – Quality aspects
Best option, Probable option, Not feasible
Best option, Probable option, Not feasible
Mention the thickness in mm
Mention the thickness in mm
Best option, Probable option, Not feasible
Wide range, Medium range, Narrow range
Best option, Probable option, Not feasible
High, Medium, Low
101. 101
PROCESS KNOWLEDGE / MOULDING / SL1
Moulding process selection – Cost aspects
High, Medium, Low
High, Medium, Low
High, Medium, Low
Very high, High, Medium, Low, very low
Very high, High, Medium, Low, very low
102. 102
PROCESS KNOWLEDGE / MOULDING / SL1
Moulding process selection – Delivery aspects
Long, Medium, Short
High, Medium, Low
Preference : High, Medium, Low volumes
106. 106
PROCESS KNOWLEDGE / MOULDING / SL1
Moulding process selection – in conclusion
Select Injection Moulding, for
Higher volumes per annum
Excellent consistency in the part
Excellent product quality
Less rejections and wastages
Lower cycle times
107. 107
PROCESS KNOWLEDGE / MOULDING / SL1
Moulding process selection – in conclusion
Select Blow Moulding, for
Hollow parts
Select compression moulding, for
Medium production per annum
Lesser development time
Medium tooling investment
108. 108
PROCESS KNOWLEDGE / MOULDING / SL1
Summary
Mainly the part geometry and complexity decide the manufacturing process
selection
The manufacturing process selection is done considering the following main
factors
Part complexity
Raw material & its properties
Dimensional requirement
Economic considerations
Environment & Safety aspects
Other factors like Quality, Cost and Delivery requirement will further
decide the selection of manufacturing process
109. 109
PROCESS KNOWLEDGE / MOULDING / SL1
1.
2.
3.
4.
Please take up the post test questionnaire
The objective of the test is to evaluate the
effectiveness of the module
The duration of the test is 15 minutes
Please do not discuss during the test