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OEM/ODM Non-Standard Fasteners
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Kunshan Hong Yong Sheng Precision Hardware Products Co.,Ltd.
Kunshan Hong Yongsheng Precision Hardware Products Co., Ltd. was established in September 2006, is a professional manufacturer and OEM/ODM Non-Standard Fasteners factory in China. The production of various types of precision parts, PEM series of standard fasteners, non-standard parts of the custom enterprise, the company's production equipment imported from Japan CNC computer numerically-controlled lathes, Taiwan CAM walking knife type high-precision automatic lathes, and various types of auxiliary equipment, precision testing equipment, totaling more than 100 units, monthly output of up to 5 million pieces. Our products are used in many fields such as electronic communications, computer monitors and chassis, automotive parts, 3C household appliances, medical equipment, pneumatic machinery, sports equipment, furniture, lighting, aerospace, military, photovoltaic, intelligent industry and so on, and we have the technical ability to develop new products.
The company for the development needs to invest more than 30 million, in the beautiful China's water town "Zhouzhuang Town", in 2016 the building completed covers an area of 10,000 square meters of production workshop, the company has its own standard workshop.
The company has obtained two quality system management certificates of ISO9001:2015 and IATF16949:2016.
At present, the company has been for Japan, Sweden, the United States, Singapore, Malaysia, Hong Kong and the Pearl River Delta and many other customers to provide services, now the main customers are: Japan Sharp (SHARP), Japan SMC, Japan Panasonic (Panasonic), the Swedish automobile VOVOL, etc., all the fixed assets investment of more than 30 million dollars, welcome friends from all walks of life to the factory to visit, study, consulting and come!
Certificate Of Honor
  • IATF16949:2016
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Non-Standard Fasteners Industry knowledge

What are the design parameters of non-standard fasteners?

The design parameters of non-standard fasteners are critical because they are customized products designed to meet the needs of a specific application. Here are some key parameters to consider when designing non-standard fasteners:

Material: The material selection of non-standard fasteners will be determined according to its application environment and performance requirements, and may include carbon steel, stainless steel, alloy steel, aluminum, plastic, etc.
Dimensions and specifications: Including fastener diameter, length, thread specifications, etc. These dimensions need to be accurate to fit the specific installation space and load requirements.
Head shape: The head shape affects the fit between the fastener and the tool and the torque transmission efficiency, which may include hexagonal head, round head, pan head, countersunk head, etc.
Thread type: The design of the thread includes external threads and internal threads, as well as the pitch size of the thread, which determines the tightening capacity and load bearing of the fastener.
Surface treatment: Surface treatment techniques such as galvanizing, nickel plating, coating, etc. can improve the corrosion resistance and wear resistance of fasteners, or provide specific colors and appearances.
Mechanical performance grade: According to the load-bearing capacity and working conditions of the fastener, determine its mechanical performance grade, such as tensile strength, yield strength, etc.
Accuracy requirements: The manufacturing accuracy of non-standard fasteners, including dimensional tolerances and geometric tolerances, is crucial to ensuring the accuracy and reliability of assembly.
Operating temperature range: Non-standard fasteners may need to operate within a specific temperature range, which affects material selection and heat treatment processes.
Load and stress: The maximum load and stress that a fastener needs to withstand, which determines the design strength and safety factor of the fastener.
Environmental factors: including chemical media, humidity, ultraviolet radiation, etc., these factors may affect the durability and life of fasteners.
Assembly requirements: including the type of assembly tools, assembly torque, whether pre-tightening is required, etc.
Safety and regulatory requirements: Certain industries may have specific safety standards or regulatory requirements that need to be followed when designing non-standard fasteners.
Cost-effectiveness: While meeting technical requirements, cost-effectiveness also needs to be considered to ensure the competitiveness of the product in the market.

When designing non-standard fasteners, customers are usually required to provide detailed technical requirements and usage environment information, or provide drawings and samples so that manufacturers can accurately meet customer needs.

How to handle failure analysis of non-standard fasteners?

Failure analysis of non-standard fasteners is a systematic process designed to determine the causes of fastener failure and propose corresponding preventive measures. The following are general steps for handling failure analysis of non-standard fasteners:

Collect information: First, you need to collect all information related to fastener failure, including fastener type, material, size, usage environment, loading history, maintenance records, etc.
Visual inspection: Conduct a visual inspection of failed fasteners and record all visible defects such as cracks, breaks, corrosion, wear, etc.
Fracture Analysis: Macroscopic and microscopic analysis of the fracture surface of a fastener to determine failure modes. For example, fatigue fracture, brittle fracture, overload fracture, etc.
Failure cause analysis: Analyze the design, material selection, manufacturing process, assembly method and usage conditions of the fastener to identify factors that may cause failure.
Stress analysis: Evaluate the stresses experienced by fasteners during service, including preload, operating load, alternating stress, etc., and how these stresses relate to failure modes.
Laboratory testing: Chemical analysis, metallographic analysis, hardness testing, mechanical property testing, etc. may be required to evaluate the material and manufacturing quality of the fastener.
Comprehensive analysis: Taking into account all collected data and test results, determine the main cause of failure. This may include improper design, material defects, processing errors, improper assembly, overload use or environmental factors.
Propose improvement measures: Based on the results of the failure analysis, make suggestions for improving the design, material selection, processing technology, assembly methods or use and maintenance to prevent future failures.
Tracking and verification: After improvement measures are implemented, their effectiveness needs to be tracked, and further testing and verification may be performed to ensure that the cause of the failure has been eliminated.
Records and reports: Record the entire failure analysis process and results in detail and prepare reports. This is very important for quality control, risk management and future reference.

When performing failure analysis, relevant professional knowledge and skills are required, and sometimes professional testing equipment and laboratory support are required. In some cases, the intervention of a third-party testing agency may be required to provide more objective and professional analysis results.