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The strength of Xingwen MachineryWuhu Xingwen Machinery Co., Ltd. was established in April 2012. The company is located in the integrated economic belt of the Yangtze River Delta, at the intersection of the three major metropolitan areas of Nanjing, Hefei, and Hangzhou - Wuhu Xinwu Economic Development Zone. The company is located adjacent to Wuxuan Airport, Wuhe Hangzhou Expressway, and Wanling Nangao Railway...
- 1Station based service
- 4Big Quality Control
- 11Grand Craftsmanship
- 15Years of experience
- 13500㎡Production base
quality assurance
- Support personalized customization/professional outsourcing processing
Specialized production of precision machining for mechanical equipment components
Precision machining of large mechanical casting components
Precision machining of large mechanical disk components
Precision machining of large mechanical components
Mold precision machining matching
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- Support personalized customization/professional outsourcing processing
Production of various types of welded structural components for manufacturing, processing, and supporting production
Manufacturing of mechanical body welding structural components
Precision machining parts for engineering vehicle equipment
Manufacturing of welding parts for engineering vehicle equipment
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Tailored complete processing plan to add value and color to the product
We have the ability to process and manufacture products, and look forward to becoming your trusted partner!
Fully equipped, laser cutting, give me a drawing and return you a quality product
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TECHNICAL CAPABILITY
- The company has complete processing equipment and can independently complete more than ten production processes such as turning and milling. The company continuously increases its investment, profits and taxes, and other economic indicators at a rate of 25% per year.
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Major OEM
- The company specializes in mechanical casting precision machining and product outsourcing manufacturing capabilities, and can undertake one-stop ODM, OEM and other outsourcing services.
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QUALITY CONTROL
- The production process strictly follows the ISO9001 standard, and specialized inspectors rigorously control defective products to ensure shipment quality.
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EFFICIENT DELIVERY
- The factory has professional production equipment, including 25 machines and devices. The factory ensures the quality of the products from incoming materials, production to shipment, with a daily output of about 20000 pieces.
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TRACEABILITY
- Main materials: stainless steel, carbon steel, titanium alloy, alloy steel. Material reports can be provided for genuine materials
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Cross border exclusive supply
- With rich cross-border experience, our products are exported to countries and regions such as the United States and Spain
More information about mechanical precision machining
- 03.172025
Batch processing of non-standard parts promotes industrial innovation
In the process of continuous evolution in the industrial field, batch processing of non-standard parts is becoming a key driving force for industrial innovation with its unique advantages.Batch processing of non-standard parts can meet diverse industrial needs. Modern industry covers many fields, and the demand for parts varies greatly from industry to industry. From high-precision complex parts in aerospace to customized parts in medical devices, standard parts often cannot meet special design and performance requirements. Batch processing of non-standard parts can be customized according to customers' personalized needs, starting from design drawings, to create exclusive parts. For example, in the research and development of new energy vehicles, in order to improve battery life and vehicle performance, it is necessary to customize motor components with special shapes and materials. Batch processing of non-standard parts can efficiently produce parts that meet the requirements, promote the innovative development of new energy vehicle technology, and meet the market's demand for high-performance electric vehicles.From the perspective of technological innovation, batch processing of non-standard parts promotes the continuous upgrading of processing technology. Due to the uniqueness of non-standard parts, traditional processing techniques may not be able to meet the requirements, which forces companies to explore new processing technologies and methods. When processing non-standard parts with complex surfaces, enterprises introduce five axis linkage machining centers, which achieve precise machining of parts through multi axis collaborative motion, improving machining accuracy and efficiency. Meanwhile, advanced additive manufacturing technology, namely 3D Printing is also widely used in non-standard parts processing, which can quickly manufacture complex structural parts that are difficult to achieve with traditional processing methods. The application of these new processes and technologies not only improves the processing quality of non-standard parts, but also gradually spreads to the entire industrial manufacturing field, driving technological innovation in the industry.Batch processing of non-standard parts has effectively promoted industrial upgrading. In strategic emerging industries such as high-end equipment manufacturing and electronic information, there is a huge demand and strict requirements for non-standard parts. Through efficient batch processing of non-standard parts, enterprises can quickly transform innovative designs into actual products, accelerating product iteration and updates. Customized non-standard parts are the key to achieving high-precision chip manufacturing in semiconductor manufacturing equipment. With the continuous improvement of batch processing technology for non-standard parts, the performance of semiconductor manufacturing equipment has also been optimized, promoting the development of the semiconductor industry towards higher end and more advanced directions, and thus driving the upgrading and transformation of the entire industrial system.Batch processing of non-standard parts plays an irreplaceable role in industrial innovation by meeting diverse needs, promoting technological innovation, and facilitating industrial upgrading. It injects a continuous stream of power into the sustainable development of the industry and helps various industries gain a competitive advantage in global competition.
- 03.172025
The impact of precision hardware processing on high-end component manufacturing
In high-end manufacturing, achieving micrometer level precision through high-precision machining is crucial, which requires addressing multiple key aspects.Advanced processing equipment is the foundation. High precision machining relies on high-precision machine tools, such as top-notch five axis linkage machining centers. This type of equipment has high positioning accuracy, and the coordinate axis positioning accuracy can reach ± 0.002mm, with a repeat positioning accuracy as low as ± 0.0005mm High precision core components such as lead screws and guide rails can ensure precise tool positioning during the machining process, providing hardware support for achieving micrometer level accuracy.Optimizing processing technology is the core. Before processing, engineers will carefully plan each process according to the design requirements of the parts. For complex parts, a phased and gradually refined machining strategy is adopted. First, perform rough machining to remove most of the excess, and then gradually improve accuracy through semi precision machining and precision machining. At the same time, reasonable selection of cutting parameters, such as precise control of cutting speed, feed rate, and cutting depth. When processing small components of electronic chips, the size accuracy can be controlled at the micrometer level through optimized process parameters, ensuring stable chip performance. In addition, adopting advanced machining techniques such as high-speed cutting and electrical discharge machining can also help achieve higher precision. High speed cutting can reduce the impact of cutting force on parts and lower the risk of deformation; Electric discharge machining can be used to process complex shapes and microstructures that are difficult to handle with traditional cutting, with an accuracy of up to micrometers.Professional personnel operation and strict quality control are indispensable. Operators need to have rich experience and exquisite skills, be familiar with equipment performance and processing technology, and be able to flexibly adjust parameters according to actual situations. During the machining process, online detection technology is used to monitor the machining dimensions and surface quality in real-time. Once a deviation is detected, it should be corrected immediately. After the processing is completed, high-precision testing equipment such as coordinate measuring instruments are used to conduct a comprehensive inspection of the parts. The coordinate measuring instrument can measure the size, shape, and positional errors of parts with micrometer level accuracy, ensuring product quality. For products that fail the inspection, strict traceability is carried out, the reasons are analyzed, and improvement measures are taken to prevent similar problems from happening again.High precision machining achieves micrometer level precision by relying on advanced equipment, optimizing processing technology, relying on professional operators, and implementing strict quality control. It provides high-quality components for high-end manufacturing fields such as aerospace, electronics, and medical equipment, promoting the development of various industries towards higher precision and performance.
- 03.172025
High precision machining of mechanical components: is technology or process more critical
In the field of high-precision mechanical component processing, technology and craftsmanship are like the wings of a bird and the wheels of a car, jointly promoting the improvement of processing quality and efficiency. It is difficult to simply judge which one is more critical.Advanced technology is the cornerstone for achieving high-precision machining. Taking ultra precision machining technology as an example, using machine tools with nanometer level precision, it is possible to accurately control the relative motion between the cutting tool and the workpiece, achieving sub micron or even nanometer level machining accuracy. In the aerospace field, high-precision blade manufacturing for engines requires the use of five axis linkage machining technology, which enables cutting tools to machine complex blade surfaces from multiple angles, ensuring the aerodynamic performance of the blades. This advanced technology endows processing equipment with powerful capabilities, breaking through the precision limitations of traditional processing and providing hardware support for manufacturing high-precision components.However, exquisite craftsmanship is equally indispensable. Craftsmanship is the scientific planning and precise execution of the machining process. From blank selection and determination of machining allowance, to optimization of cutting parameters and arrangement of machining sequence, every step contains the wisdom of technology. In electronic chip manufacturing, photolithography process is the key to determining chip performance. By carefully designing the photolithography process and precisely controlling parameters such as exposure time and development conditions, complex and precise circuit patterns can be etched on the surface of tiny chips. Reasonable processes can fully utilize the performance of equipment, make up for some technical deficiencies, optimize component processing, and ensure the stability of product quality.In the processing of complex components, technology and process work closely together. For example, the precision machining of automobile engine cylinder bodies requires high-precision CNC machine technology to ensure the dimensional accuracy of cylinder roundness, cylindricity, and other dimensions, as well as advanced boring and honing processes to ensure the roughness and sealing of the inner surface of the cylinder. Technology provides the means of implementation for processing, while craftsmanship combines these means in a reasonable manner and transforms them into actual high-quality products. Moreover, with the increasing demand for component processing efficiency in the market, advanced technology combined with optimized processes can significantly shorten the processing cycle. If high-speed cutting technology is used in conjunction with a reasonable tool path planning process, it can significantly improve cutting speed and reduce processing time while ensuring machining accuracy.In the processing of high-precision mechanical components, technology and process are interdependent and mutually reinforcing. Only by continuously introducing advanced technology and focusing on process research and optimization can enterprises manufacture high-precision and high-quality mechanical components in the fiercely competitive market, meeting the growing demands of various industries .