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B.E. (Welding Technology)

B.E. (Welding Technology) is a specialized field that focuses on the study of welding processes, metallurgy, and the application of welding in various industries. Here’s an overview of what you might study in this program:

  1. Engineering Mathematics: The program typically starts with a foundation in mathematics, including calculus, differential equations, and linear algebra, providing the necessary mathematical tools for engineering analysis.
  2. Engineering Physics and Chemistry: Studying the fundamental principles of physics and chemistry relevant to welding technology, including material properties and reactions during welding.
  3. Introduction to Welding Technology: An overview of the welding industry, different welding processes, and their applications in manufacturing and construction.
  4. Welding Metallurgy: Understanding the metallurgical aspects of welding, including the effects of heat input, cooling rates, and material transformations during the welding process.
  5. Welding Processes: Learning about various welding techniques, such as arc welding, gas welding, resistance welding, and laser welding. Understanding the principles, equipment, and applications of each process.
  6. Welding Equipment and Machinery: Studying the design, operation, and maintenance of welding equipment, including welding machines, power sources, and auxiliary tools.
  7. Welding Materials: Understanding the properties of different materials used in welding, including metals, alloys, and non-metallic materials.
  8. Welding Codes and Standards: Learning about industry standards and codes that govern welding practices, ensuring compliance with safety and quality requirements.
  9. Welding Inspection and Quality Control: Exploring techniques for inspecting welds, including visual inspection, non-destructive testing (NDT), and quality control procedures.
  10. Welding Design and Fabrication: Applying engineering principles to the design and fabrication of welded structures, considering factors such as load-bearing capacity, joint design, and material selection.
  11. Welding Automation and Robotics: Studying the application of automation and robotics in welding processes to enhance efficiency, precision, and safety.
  12. Advanced Welding Techniques: Exploring advanced welding methods and emerging technologies in the field, such as friction stir welding, electron beam welding, and additive manufacturing.
  13. Welding Safety and Health: Understanding safety protocols, personal protective equipment (PPE), and health considerations in the welding environment.
  14. Welding Project Management: Learning project management principles specific to welding projects, including planning, budgeting, and resource management.
  15. Environmental Impact of Welding: Exploring the environmental considerations of welding processes and sustainable practices in the welding industry.
  16. Welding Economics: Understanding the economic aspects of welding projects, including cost estimation, budgeting, and economic analysis.
  17. Professional Ethics in Welding: Considering ethical considerations and professional conduct in the field of welding, including issues related to safety, quality, and integrity.

Throughout the program, students often engage in practical projects, internships, and hands-on laboratory work to gain hands-on experience in welding technology. B.E. (Welding Technology) prepares graduates for careers in welding engineering, inspection, quality assurance, and research and development in industries such as manufacturing, construction, and aerospace.

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B.E. (Metallurgical Engineering)

B.E. (Metallurgical Engineering) focuses on the study of metals, their properties, extraction, processing, and applications. Here’s an overview of what you might study in this program:

  1. Engineering Mathematics: The program typically starts with a foundation in mathematics, including calculus, differential equations, and linear algebra, providing the mathematical tools necessary for engineering analysis.
  1. Engineering Physics: Studying the fundamental principles of physics relevant to metallurgical engineering, including mechanics, thermodynamics, and electromagnetism.
  1. Engineering Chemistry: Understanding the chemical properties of metals, alloys, and materials used in metallurgy. This includes studying corrosion, phase diagrams, and material science.
  1. Metallurgical Thermodynamics: Exploring the principles of thermodynamics as applied to metallurgical processes, including phase transformations and reactions in high-temperature environments.
  1. Physical Metallurgy: Studying the physical and mechanical properties of metals and alloys, as well as the processes involved in their production and treatment.
  1. Extractive Metallurgy: Learning about the extraction of metals from their ores, including methods such as smelting, leaching, and refining.
  1. Mechanical Behavior of Materials: Understanding how metals respond to different mechanical forces, including stress, strain, and deformation. This is crucial for designing materials with specific mechanical properties.
  1. Metallurgical Laboratory Techniques: Hands-on experience in metallurgical laboratories, where students learn practical skills in analyzing and testing materials.
  1. Welding Technology: Studying various welding processes and techniques used to join metals, including arc welding, gas welding, and resistance welding.
  1. Corrosion Engineering: Understanding the factors leading to corrosion and methods to prevent or control corrosion in metals.
  1. Metal Forming and Casting: Learning about manufacturing processes involving the shaping of metals, such as casting, forging, and rolling.
  1. Heat Treatment: Studying the processes of heat treatment to alter the physical and mechanical properties of metals and alloys.
  1. Non-Destructive Testing (NDT): Exploring techniques for testing and inspecting materials without causing damage, including methods like ultrasonic testing and X-ray inspection.
  1. Powder Metallurgy: Understanding the production of metal powders and their use in manufacturing processes, such as sintering.
  1. Metallurgical Analysis and Quality Control: Learning techniques for analyzing and ensuring the quality of metals and alloys in various industrial applications.
  1. Metallurgical Plant Design and Operation: Studying the design and operation of metallurgical plants, including considerations for efficiency, safety, and environmental impact.
  1. Environmental Impact of Metallurgical Processes: Considering the environmental aspects of metallurgical activities and exploring sustainable practices in metallurgy.

Throughout the program, students often engage in projects, industrial visits, and internships to gain practical experience in metallurgical engineering. B.E. (Metallurgical Engineering) prepares graduates for careers in industries such as metal production, manufacturing, materials research, and quality control.

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B.Tech. (Material Science Engineering)

A Bachelor of Technology (B.Tech.) program in Material Science Engineering is an undergraduate engineering degree program that focuses on the study of materials, their properties, and their applications in various industries. This program equips students with the knowledge and skills needed to understand the behavior of materials, develop new materials, and design products with specific material properties. Here are some common subjects and areas of study in a B.Tech. program in Material Science Engineering:

1. Engineering Mathematics: Study of advanced mathematical concepts relevant to material science engineering applications.

2. Material Properties: Education in the physical and chemical properties of materials, including metals, polymers, ceramics, and composites.

3. Material Testing and Characterization: Courses on experimental techniques for testing and analyzing material properties.

4. Materials Selection and Design: Study of materials selection criteria and their applications in product design.

5. Material Processing and Manufacturing: Education in the processing methods used to shape and modify materials.

6. Nanomaterials and Nanotechnology: Courses on nanoscale materials, nanoparticles, and their applications.

7. Composite Materials: Study of composite materials, their constituents, and manufacturing techniques.

8. Materials for Energy Applications: Education in materials used in energy storage, conversion, and generation.

9. Material Science and Engineering Projects: Many B.Tech. programs include hands-on projects where students work on real material science and engineering projects.

10. Internships: Some programs offer internships with materials science and engineering companies, research institutions, or manufacturing organizations, providing practical experience in the field.

A B.Tech. program in Material Science Engineering prepares students for careers in various industries, including materials development, manufacturing, research and development, and quality control. Graduates may work as materials engineers, research scientists, product designers, quality assurance specialists, and process engineers. They play a vital role in developing new materials, improving existing materials, and ensuring that materials meet the required specifications for different applications, from aerospace and automotive industries to electronics and healthcare. Additionally, some graduates may choose to pursue advanced degrees or certifications in specialized areas of material science and engineering to further their expertise in the field.

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Jewellery Design: Quality Control (QC) Course

A “Jewellery Design: Quality Control (QC) Course” focuses on the principles and practices of ensuring the quality, integrity, and craftsmanship of jewelry pieces. Quality control is crucial in the jewelry industry to maintain high standards, meet customer expectations, and adhere to regulations. Here are the key topics you might study in such a course:

1. Introduction to Quality Control in Jewelry Design:
– Overview of the importance of quality control in the jewelry industry.
– The role of quality control in ensuring customer satisfaction and product integrity.

2. Jewelry Materials and Components:
– Understanding the various materials used in jewelry making, including metals, gemstones, and findings.
– Quality assessment of raw materials and their suitability for specific jewelry designs.

3. Quality Control Protocols:
– Development and implementation of quality control procedures and protocols.
– Setting quality standards and benchmarks for jewelry production.

4. Jewelry Design Review:
– Assessment of jewelry design specifications, including aesthetics, functionality, and durability.
– Ensuring that designs meet the intended aesthetic and functional criteria.

5. Material Inspection and Testing:
– Techniques for inspecting and testing jewelry materials to verify their quality and authenticity.
– Methods for identifying genuine gemstones, precious metals, and alloys.

6. Workmanship and Craftsmanship:
– Evaluating the quality of jewelry workmanship, including soldering, stone setting, and finishing.
– Techniques for identifying and addressing craftsmanship issues.

7. Jewelry Production Control:
– Oversight of the jewelry production process, from design to manufacturing and assembly.
– Monitoring the consistency of production to maintain quality standards.

8. Quality Assurance in Gemstones:
– Quality control procedures for gemstones, including color, clarity, and carat weight grading.
– Ensuring that gemstones meet specified quality criteria.

9. Tolerance and Measurement:
– Understanding tolerance levels and measurement techniques for jewelry components.
– Using precision tools to assess dimensions and fit.

10. Final Inspection:
– Techniques for conducting final inspections of completed jewelry pieces.
– Identifying and rectifying any defects or issues in the finished products.

11. Quality Control Documentation:
– Maintaining accurate records and documentation related to quality control measures.
– The role of documentation in tracking and improving quality over time.

12. Ethical Considerations:
– Ethical considerations in quality control, including responsible sourcing, fair labor practices, and ethical trade.
– Compliance with industry standards and regulations.

13. Consumer Protection:
– Ensuring that jewelry pieces meet safety and quality standards to protect consumers.
– Regulatory requirements and standards related to consumer protection.

14. Continuous Improvement:
– Strategies for continuous improvement in quality control processes and procedures.
– Incorporating customer feedback and industry best practices.

A Quality Control Course in Jewelry Design equips individuals with the knowledge and skills needed to maintain high-quality standards in jewelry production, meet customer expectations, and ensure that products adhere to ethical and legal standards. This course is valuable for those involved in jewelry design, manufacturing, and quality assurance roles within the jewelry industry.

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Jewellery Design: Finishing, Polishing & Electroplating

A course in “Jewellery Design: Finishing, Polishing & Electroplating” focuses on the final stages of jewellery production, including the refinement, polishing, and finishing techniques, as well as the electroplating process. This course is typically designed for individuals who have a background in jewellery design and manufacturing or those looking to specialize in the finishing and electroplating aspects of jewellery production. Here are the key topics you might study in such a course:

1. Jewellery Finishing Techniques:
– Introduction to jewellery finishing, its importance, and the role it plays in the final product.
– Surface preparation methods, such as sanding, filing, and grinding to remove imperfections and shape the jewellery.

2. Polishing Methods:
– Understanding various polishing techniques, including manual and mechanical methods.
– Types of polishing compounds and equipment used in the process.

3. Surface Texturing:
– Techniques for adding texture to jewellery surfaces for artistic and aesthetic effects.
– Using tools like hammers, stamps, and engraving to create textures.

4. Ultrasonic Cleaning:
– The use of ultrasonic cleaning equipment to remove dirt and debris from jewellery.

5. Tumbling and Vibratory Finishing:
– How tumbling and vibratory finishing equipment can be used to improve the surface finish of jewellery.

6. Plating and Electroplating:
– Introduction to electroplating, the process of depositing a layer of metal onto the surface of jewellery.
– Types of plating, such as gold, silver, and rhodium plating, and their applications.
– Electroplating equipment and safety precautions.

7. Quality Control:
– Techniques for inspecting and ensuring the quality of finished jewellery.
– Identifying defects and issues in the finishing and polishing process.

8. Patinas and Oxidation:
– Techniques for creating patinas and oxidation effects on metals for artistic and antique finishes.

9. Safety and Environmental Considerations:
– Understanding safety protocols when working with chemicals and equipment in electroplating.
– Environmental regulations and responsible disposal of waste materials.

10. Industry Standards:
– Familiarity with industry standards and quality control practices in jewellery finishing.

11. Practical Projects:
– Hands-on projects to practice and apply the finishing, polishing, and electroplating techniques.

12. Portfolio Development:
– Creating a portfolio showcasing your finished jewellery pieces.

This course is valuable for individuals who aim to work in the jewellery manufacturing industry or who want to enhance their skills in the final stages of jewellery production. The knowledge and techniques acquired in this course are crucial for producing high-quality, polished, and well-finished jewellery pieces that meet industry standards and customer expectations.

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Diploma programme in Jewellery Design & Technology

A Diploma in Jewellery Design & Technology program is designed to provide students with the foundational knowledge and practical skills required for a career in the field of jewellery design, manufacturing, and technology. The curriculum typically covers a range of subjects related to jewellery design, gemology, metalwork, and jewellery manufacturing. Here are the key areas of study and topics typically covered in a Diploma in Jewellery Design & Technology program:

1. Introduction to Jewellery Design: Learn the basics of jewellery design, including design concepts, inspiration, and design development.

2. Gemology: Gain an understanding of gemstone identification, classification, grading, and their use in jewellery.

3. Metalwork and Casting: Learn metalwork techniques, including casting, soldering, and metal forming.

4. Gem Setting Techniques: Study various gem setting methods such as prong, bezel, pave, and channel settings.

5. Jewellery Manufacturing: Explore the processes involved in jewellery manufacturing, including wax modeling, mold making, and lost-wax casting.

6. Traditional and Contemporary Techniques: Familiarize yourself with both traditional and modern jewellery-making techniques and approaches.

7. Jewellery Materials: Understand the properties and use of different metals, gemstones, and materials in jewellery.

8. Jewellery Tools and Equipment: Gain proficiency in using the tools and equipment commonly used in jewellery making.

9. Quality Control: Learn about quality standards and inspections to ensure the quality of jewellery pieces.

10. Design Software: Gain basic knowledge of design software and computer-aided design (CAD) for jewellery design.

11. Professional Ethics: Explore ethical considerations in the jewellery industry, including responsible sourcing of materials.

12. Safety and Health Practices: Understand safety regulations and practices in jewellery manufacturing to ensure a safe working environment.

13. Portfolio Development: Create a professional portfolio showcasing your jewellery design projects.

14. Internship or Practical Experience: Many programs offer internships or practical training in jewellery workshops or studios, allowing students to gain hands-on experience in the industry.

The specific curriculum and the depth of topics covered can vary between institutions offering Diploma programs in Jewellery Design & Technology. Graduates of these programs are typically prepared for entry-level positions in the jewellery industry, such as jewellery design assistants, apprentice jewellers, or technicians in jewellery manufacturing workshops. They play a crucial role in the creation and production of jewellery while adhering to quality standards and safety practices in the field.

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BBA Jewellery Design and Management

A Bachelor of Business Administration (BBA) in Jewellery Design and Management program is designed to provide students with a comprehensive understanding of both the creative and business aspects of the jewellery industry. The curriculum covers a wide range of subjects related to jewellery design, manufacturing, gemology, business management, entrepreneurship, and marketing. Here are the key areas of study and topics typically covered in a BBA Jewellery Design and Management program:

1. Design Fundamentals: Learn the core principles of jewellery design, including color theory, composition, and aesthetics.

2. Jewellery Design Concepts: Study the concepts of jewellery design, including inspiration, ideation, and design development.

3. Gemology: Gain knowledge of gemstone identification, classification, grading, and the use of gemstones in design.

4. Metalwork and Casting: Understand metalwork techniques, including casting, soldering, and metal forming.

5. 3D Modelling and CAD (Computer-Aided Design): Gain skills in using CAD software to create jewellery designs.

6. Gem Setting: Learn gem setting techniques, including prong, bezel, and pave settings.

7. Jewellery Manufacturing: Explore the processes involved in jewellery manufacturing, including wax modeling, mold making, and lost-wax casting.

8. Traditional and Contemporary Techniques: Study both traditional and modern jewellery-making techniques and approaches.

9. Jewellery Materials: Explore the properties and use of different metals, gemstones, and materials in jewellery.

10. Jewellery Tools and Equipment: Familiarize yourself with the tools and equipment used in jewellery making.

11. Business Management: Learn about business principles, including marketing, finance, human resources, and entrepreneurship.

12. Industry Trends and Styles: Stay updated with the latest trends and styles in jewellery design.

13. Jewellery History and Culture: Explore the history and cultural aspects of jewellery design and production.

14. Jewellery Valuation and Appraisal: Understand the process of valuing and appraising jewellery.

15. Business Ethics and Quality Standards: Study ethical considerations and industry quality standards in jewellery.

16. Entrepreneurship and Business Planning: Develop skills in starting and managing a jewellery business.

17. Retail Management: Gain knowledge of managing jewellery stores, visual merchandising, and customer service.

18. Inventory Management: Understand inventory control and supply chain management in the jewellery industry.

19. Marketing and Branding: Learn marketing strategies and brand management for jewellery businesses.

20. E-commerce and Online Retailing: Explore online sales channels and digital marketing for jewellery.

21. Financial Management: Study financial analysis, budgeting, and financial planning for jewellery businesses.

22. Consumer Behavior: Understand consumer preferences and behavior in the jewellery market.

23. Internship or Practical Experience: Many programs offer internships or practical training in jewellery workshops, stores, or with established jewellers to gain hands-on experience.

The specific curriculum and elective courses can vary between institutions offering BBA Jewellery Design and Management programs. Graduates of these programs are typically prepared for careers as jewellery designers, jewellery business owners, jewellery store managers, jewellery marketing and sales professionals, gemologists, and professionals involved in various aspects of the jewellery industry. They play a pivotal role in the design, production, marketing, and management of jewellery businesses while adhering to ethical and sustainable practices in the industry.

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BSc Jewellery Design and Management

A Bachelor of Science (BSc) in Jewellery Design and Management program is designed to provide students with a comprehensive understanding of both the creative and business aspects of the jewellery industry. The curriculum covers a wide range of subjects related to jewellery design, manufacturing, gemology, business management, and entrepreneurship. Here are the key areas of study and topics typically covered in a BSc Jewellery Design and Management program:

1. Design Fundamentals: Learn the core principles of jewellery design, including color theory, composition, and aesthetics.

2. Jewellery Design Concepts: Study the concepts of jewellery design, including inspiration, ideation, and design development.

3. Gemology: Gain knowledge of gemstone identification, classification, grading, and the use of gemstones in design.

4. Metalwork and Casting: Understand metalwork techniques, including casting, soldering, and metal forming.

5. 3D Modelling and CAD (Computer-Aided Design): Gain skills in using CAD software to create jewellery designs.

6. Gem Setting: Learn gem setting techniques, including prong, bezel, and pave settings.

7. Jewellery Manufacturing: Explore the processes involved in jewellery manufacturing, including wax modeling, mold making, and lost-wax casting.

8. Traditional and Contemporary Techniques: Study both traditional and modern jewellery-making techniques and approaches.

9. Jewellery Materials: Explore the properties and use of different metals, gemstones, and materials in jewellery.

10. Jewellery Tools and Equipment: Familiarize yourself with the tools and equipment used in jewellery making.

11. Business Management: Learn about business principles, including marketing, finance, human resources, and entrepreneurship.

12. Industry Trends and Styles: Stay updated with the latest trends and styles in jewellery design.

13. Jewellery History and Culture: Explore the history and cultural aspects of jewellery design and production.

14. Jewellery Valuation and Appraisal: Understand the process of valuing and appraising jewellery.

15. Business Ethics and Quality Standards: Study ethical considerations and industry quality standards in jewellery.

16. Entrepreneurship and Business Planning: Develop skills in starting and managing a jewellery business.

17. Retail Management: Gain knowledge of managing jewellery stores, visual merchandising, and customer service.

18. Inventory Management: Understand inventory control and supply chain management in the jewellery industry.

19. Marketing and Branding: Learn marketing strategies and brand management for jewellery businesses.

20. E-commerce and Online Retailing: Explore online sales channels and digital marketing for jewellery.

21. Internship or Practical Experience: Many programs offer internships or practical training in jewellery workshops, stores, or with established jewellers to gain hands-on experience.

The specific curriculum and elective courses can vary between institutions offering BSc Jewellery Design and Management programs. Graduates of these programs are typically prepared for careers as jewellery designers, jewellery business owners, jewellery store managers, jewellery marketing and sales professionals, gemologists, and professionals involved in various aspects of the jewellery industry. They play a pivotal role in the design, production, marketing, and management of jewellery businesses while adhering to ethical and sustainable practices in the industry.

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B.Com Jewellery Design & Technology

A Bachelor of Commerce (B.Com) in Jewellery Design & Technology program is designed to provide students with a comprehensive understanding of the business and technical aspects of the jewellery industry. The curriculum covers a wide range of subjects related to jewellery design, manufacturing, gemology, business management, and technology. Here are the key areas of study and topics typically covered in a B.Com Jewellery Design & Technology program:

1. Design Fundamentals: Learn the core principles of jewellery design, including color theory, composition, and aesthetics.

2. Jewellery Design Concepts: Study the concepts of jewellery design, including inspiration, ideation, and design development.

3. Gemology: Gain knowledge of gemstone identification, classification, grading, and the use of gemstones in design.

4. Metalwork and Casting: Understand metalwork techniques, including casting, soldering, and metal forming.

5. 3D Modelling and CAD (Computer-Aided Design): Gain skills in using CAD software to create jewellery designs.

6. Gem Setting: Learn gem setting techniques, including prong, bezel, and pave settings.

7. Jewellery Manufacturing: Explore the processes involved in jewellery manufacturing, including wax modeling, mold making, and lost-wax casting.

8. Traditional and Contemporary Techniques: Study both traditional and modern jewellery-making techniques and approaches.

9. Jewellery Materials: Explore the properties and use of different metals, gemstones, and materials in jewellery.

10. Jewellery Tools and Equipment: Familiarize yourself with the tools and equipment used in jewellery making.

11. Business Management: Learn about business principles, including marketing, finance, human resources, and entrepreneurship.

12. Industry Trends and Styles: Stay updated with the latest trends and styles in jewellery design.

13. Jewellery History and Culture: Explore the history and cultural aspects of jewellery design and production.

14. Jewellery Valuation and Appraisal: Understand the process of valuing and appraising jewellery.

15. Business Ethics and Quality Standards: Study ethical considerations and industry quality standards in jewellery.

16. Jewellery Technology: Explore the use of technology in jewellery design, manufacturing, and business operations.

17. E-commerce and Online Retailing: Learn about selling jewellery online and managing e-commerce platforms.

18. Retail Management: Gain knowledge of managing jewellery stores, visual merchandising, and customer service.

19. Inventory Management: Understand inventory control and supply chain management in the jewellery industry.

20. International Trade and Export: Study international trade and export practices in the jewellery business.

21. Internship or Practical Experience: Many programs offer internships or practical training in jewellery workshops, stores, or with established jewellers to gain hands-on experience.

The specific curriculum and elective courses can vary between institutions offering B.Com Jewellery Design & Technology programs. Graduates of these programs are typically prepared for careers as jewellery designers, jewellery artisans, gemologists, jewellery store managers, jewellery business owners, and professionals involved in various aspects of the jewellery industry. They play a crucial role in the design, production, marketing, and management of jewellery businesses while adhering to ethical and sustainable practices in the industry.

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Basic Diploma In Jewellery Technology

A Basic Diploma in Jewellery Technology typically covers fundamental concepts and practical skills related to the design and production of jewellery. The specific curriculum may vary depending on the institution offering the program, but here are some common topics that are often included:

  1. Introduction to Jewellery Industry: An overview of the history, evolution, and current trends in the jewellery industry.
  1. Materials and Gemstones: Study of various metals used in jewellery making (e.g., gold, silver, platinum) and different types of gemstones. This may include understanding their properties, sources, and methods of identification.
  1. Jewellery Design: Principles of jewellery design, including sketching, rendering, and conceptualization. Students may learn to use design software for creating digital representations of their designs.
  1. Casting Techniques: Introduction to casting methods used in jewellery production, such as lost-wax casting.
  1. Metalworking: Basic metalworking skills, including sawing, filing, soldering, and polishing.
  1. Stone Setting: Techniques for setting gemstones into metal settings, including prong setting, bezel setting, and pave setting.
  1. Engraving and Embossing: Basic engraving and embossing techniques for adding decorative elements to jewellery.
  1. Jewellery Finishing and Polishing: Techniques for finishing jewellery pieces to achieve a polished and refined appearance.
  1. Jewellery Repair and Maintenance: Basics of jewellery repair, resizing, and maintenance.
  1. Quality Control: Understanding and implementing quality control measures to ensure the production of high-quality jewellery.
  1. Jewellery Tools and Equipment: Familiarization with the various tools and equipment used in jewellery making, including their proper usage and maintenance.
  1. Safety Procedures: Adherence to safety protocols and practices in the jewellery workshop.
  1. Industry Regulations: Awareness of legal and ethical considerations in the jewellery industry, including compliance with regulations related to the use of precious metals and gemstones.
  1. Professional Practices: Introduction to business aspects of jewellery making, including pricing, marketing, and customer service.

The aim of a Basic Diploma in Jewellery Technology is to provide students with a foundational understanding of the skills and knowledge necessary for entry-level positions in the jewellery industry or to pursue further studies in jewellery design and technology. Practical, hands-on experience is often a significant component of such programs, allowing students to apply the theoretical knowledge they acquire in a real workshop setting.