Manufacturing and Machining
Automated Manufacturing【自动化制造】
Automated manufacturing is the use of robotics and computer-controlled machines to reduce cost, improve consistency, and increase efficiency. Automated manufacturing is often used in the production of complex parts, components, and products. Automated manufacturing generally refers to the automation of the processes and machines used in manufacturing. Automated manufacturing often uses computer software and hardware to control machines, process data, and detect discrepencies or issues. Automated manufacturing can reduce human labor costs, improve output consistency, and increase accuracy in manufacturing processes.
CNC Machining【数控加工】
CNC machining is a type of machining that uses computer numeric controls (CNC) to control machines such as milling machines, lathes, and grinders. CNC machining is used in the production of parts and components for use in a wide range of industries, including automotive, medical, aerospace, and electronics. CNC machining can produce complex parts, components, and products with a high degree of accuracy and repeatability. CNC machining is often used to produce parts with tight tolerances or intricate shapes.
Moulding【模具】
Moulding is a process used to form parts and components from a variety of materials. It involves the use of moulds, or forms, to shape the parts or components. The moulds are typically made from metal, plastic, or ceramic materials and can be custom-designed for a particular part or component. Moulding is often used to quickly and accurately produce large numbers of identical parts or components. It is commonly used to form items such as plastic toys and components, ceramic tiles, and metal parts and components.
Robotics【机器人技术】
Robotics is the use of computers, machines, and other automated systems to carry out tasks that historically required human labor. Robotics is useful in applications where speed, accuracy, and consistency of output are paramount. Robotics is used in industries such as manufacturing, agriculture, healthcare, and construction. In addition to providing increased speed, accuracy, and consistency of output, robotics also improves workplace safety by reducing human labor in hazardous or dangerous environments.
Rapid Prototyping【快速原型制造】
Rapid prototyping is a process that uses computer-aided design (CAD) software and 3D printing technology to quickly and accurately create physical prototypes of parts, components, and products. Rapid prototyping allows designers and engineers to quickly and accurately identify design defects and improve the design process. Rapid prototyping is often used in the automotive, electronics, and medical industries to quickly and accurately create components and prototypes. Rapid prototyping machines can be used to create functional parts and components or to create prototypes for design evaluation.
Inspection and Quality Control
Quality Control【质量控制】
Quality control (QC) is a set of procedures or processes used to ensure that products meet or exceed customer specifications and industry standards. Quality control is used in all stages of production, from the design and manufacture of components and products to their installation, maintenance, and repair. Quality control includes inspecting components and products for defects, using testing processes to determine the quality of materials and products, and ensuring compliance with customer requirements and industry standards.
Industrial Dimensional Inspection【工业尺寸检测】
Industrial dimensional inspection is the process of measuring and inspecting parts and components to determine whether they meet dimensional and manufacturing specifications. Industrial dimensional inspection is typically performed manually and with the use of measuring tools such as calipers, micrometers, and gauges. Industrial dimensional inspection can be used to detect differences in the shape, size, position, location, and orientation of parts and components.
Non-Destructive Testing【无损检测】
Non-destructive testing (NDT) is the process of testing materials and components without causing damage to the material or component. NDT is useful in the aerospace, automotive, and medical industries, where components and products must be tested without causing any alteration or damage. NDT techniques include visual inspection, ultrasound testing, magnetic field testing, and eddy current testing. Non-destructive testing is used to detect flaws in materials or components and ensure that they meet customer requirements and industry standards.
Thermal Imaging【热成像仪】
Thermal imaging is the use of cameras to detect heat or infrared radiation emitted by objects. Thermal imaging is used in industrial and commercial applications to detect flaws, identify heat sources, and monitor temperature changes. Thermal imaging cameras are used in the automotive, medical, and construction industries to detect mechanical issues, identify temperature fluctuations, and detect hazardous materials. Thermal imaging can also be used to identify air leaks in buildings and identify electrical faults in electronic components.