How Do I Become a Welding Engineer?
Welding engineer means a person engaged in welding technology. Generally includes welding technicians, welding structural engineers, welding equipment engineers, and welding quality inspectors. Welding technologists are mainly engaged in the selection and development of welding materials, the selection of welding equipment, the formulation of welding standards, the formulation of welding processes, and guiding the work of riveters and welders. Welding structural engineers mainly perform various thermal and mechanical calculations, simulations, and verifications on large or miniature welded structures.
Welding Engineer
- Chinese name
- Welding Engineer
- Foreign name
- Welding engineer
- Welding engineer means a person engaged in welding technology. Generally includes welding technicians, welding structural engineers, welding equipment engineers, and welding quality inspectors. Welding technologists are mainly engaged in the selection and development of welding materials, the selection of welding equipment, the formulation of welding standards, the formulation of welding processes, and guiding the work of riveters and welders. Welding structural engineers mainly perform various thermal and mechanical calculations, simulations, and verifications on large or miniature welded structures.
- Due to different concerns, welding engineers in the electronics industry mainly focus on automation and precision, and welding engineers in the construction industry mainly focus on structure, cracks, deformation and so on.
- 1. Design welding process;
- 2. Responsible for the improvement of the welding room functions (equipment, technology, tools, consumables) of the technical service department;
- 3. Improve the welding repair process specifications according to the steel mill's guidance documents and the technical guidance of steel mill experts;
- 4. Maintain welding and auxiliary equipment for normal operation;
- 1. Major in welding or material processing engineering, college degree or above;
- 2, with industry qualifications, understand the product manufacturing process;
- 3. Familiar with or understand the ISO 9001 series quality standards, have a high sense of responsibility, good team spirit, good professionalism, and can withstand certain work pressure.
- The salary of welding engineers is generally around 5000--15,000 yuan. The working place is generally in the office and production workshop. There will be some danger in the production workshop. It is necessary to do necessary protection.
- It is expected that the employment growth rate of all welding and related occupations will be lower than the average speed of all occupations by 2008. Despite the slow growth, there are still many opportunities for experienced welding engineers. Because many employers find it difficult to find qualified applicants, most job opportunities are created after someone with experience leaves the job. Welding engineers should survive this downturn, work hard to improve their quality, and be ready to pick up.
- Although the industry is developing slowly, welding engineers can still find an ideal job with their own skills and qualities. Some construction, automation, machinery manufacturing, and some utilities require welding engineers.
Introduction to welding engineer content
- Part 1 brings together the symbols, formulas, and data that are most commonly used by welding engineers but are not easy to remember. Part 2 describes the physical and metallurgical behaviors in the welding process, as well as welding crack problems that are closely related to metal weldability. Chapters 3, 4, and 5 introduce various welding methods and equipment in the project, including arc welding, resistance welding, and other special welding methods and equipment; Chapter 6 focuses on the performance parameters of the welding materials with electrodes, wires and flux And selection methods; Chapter 7 introduces the welding performance and welding process of various metal materials; Chapter 8 focuses on welding stress and deformation, structural strength and structural design; Chapter 9 introduces welding processes often encountered in production In addition to process design, welding process assessment and welding quality inspection, the design and calculation methods of welding process equipment and related data are also introduced in a comprehensive and systematic way.
Directory of Welding Engineers
- Chapter 1 General Information
- Chapter 1 Symbols Chapter 2 Units and Conversions Chapter 3 Common Formulas, Data and Information
- Chapter 2 Welding Physical Metallurgy
- Chapter 1 Welding and Classification Chapter 2 Welding Physics Chapter 3 Welding Metallurgy Chapter 4 Welding Cracks
- Chapter 3 Arc Welding Method and Equipment
- Chapter 1 Arc Welding Power Source Chapter 2 Electrode Arc Welding Chapter 3 Submerged Arc Welding Chapter 4 Tungsten Arc Welding (TIG Welding) Chapter 5 Melt-Pole Gas Shield Welding Chapter 6 Plasma Arc Welding Chapter 7 Stud Weld
- Chapter 4 Resistance Welding Method and Equipment
- Chapter 1 Basics of Resistance Welding Chapter 2 Resistance Welding Equipment Chapter 3 Spot Welding Process Chapter 4 Projection Welding Process Chapter 5 Seam Welding Process Chapter 6 Butt Welding Process
- Chapter 5 Other Welding Methods and Equipment
- Chapter 1 Electroslag welding Chapter 2 Electron beam welding Chapter 3 Laser welding Chapter 4 Friction welding Chapter 5 Diffusion welding Chapter 6 Cold welding Chapter 7 Explosive welding Chapter 8 Ultrasonic welding Chapter 9 Gas welding Chapter 10 Brazing Chapter 11 High Frequency Welding Chapter 12 Thermal Cutting
- Chapter 6 Welding Materials
- Chapter 1 Welding Rods Chapter 2 Welding Wires and Fluxes Chapter 3 Shielding Gases for Welding Chapter 4 Electrodes
- Chapter 7 Welding of Metal Materials
- Chapter 1 Weldability and its test methods Chapter 2 Welding of carbon steel Chapter 3 Welding of alloy structural steel Chapter 4 Welding of heat-resistant steel Chapter 5 Welding of stainless steel Chapter 6 Welding of cast iron Chapter 7 Aluminum and aluminum Welding of alloys Chapter 8 Welding of copper and copper alloys Chapter 9 Welding of titanium and titanium alloys Chapter 10 Welding of dissimilar metals Chapter 11 Surfacing of metallic materials Chapter 12 Thermal spraying
- Chapter 8 Welded Structures
- Chapter 1 Welding Stress and Deformation Chapter 2 Welded Joints Chapter 3 Welded Structure Failure Chapter 4 Welded Structure Design
- Chapter 9 Production of Welded Structures
- Chapter 1 Welding Process Design Chapter 2 Welding Process Evaluation Chapter 3 Welding Machinery Equipment and Design Chapter 4 Welding Production Mechanization and Automation Chapter 5 Welding Inspection Chapter 6 Welding Production Safety and Labor Protection