Surface Finishing
Surface Finishing Overview
To ensure that the parts meet the desired process standards, perform stably and optimally in practical applications, and maintain their best condition, we conduct surface treatment operations after completing the appropriate processes or all machining procedures. This process includes polishing, texturing, painting, anodizing, coating, electroplating, and related techniques. These treatments are like dressing the parts in a "multifunctional outer la... moreSurface Finishing
Surface Finishing Overview
To ensure that the parts meet the desired process standards, perform stably and optimally in practical applications, and maintain their best condition, we conduct surface treatment operations after completing the appropriate processes or all machining procedures. This process includes polishing, texturing, painting, anodizing, coating, electroplating, and related techniques. These treatments are like dressing the parts in a "multifunctional outer layer," which not only significantly improves the appearance quality of the parts, making their texture more refined and aesthetically pleasing, but also provides comprehensive protective properties. In terms of stress relief and oxidation resistance, they effectively delay the aging process of the parts. In removing surface defects, they ensure the parts are put into use in perfect condition. Additionally, they significantly enhance properties such as chemical corrosion resistance and wear resistance, greatly extending the service life of the parts and enabling them to handle various complex working conditions with ease, operating stably and efficiently.
Surface Finishing Services Available
The surface treatment processes we can provide include:
Anodizing
Painting
Bead Blasting
Sanding and Polishing
Vapor Polishing
Color Matching
Texturing
Powder Coating
Electroplating
Pad and Silk Screen Printing
Factors to Consider When Choosing a Surface Treatment
Production Speed of the Surface Treatment Method: Consider the required delivery timeline. Evaluate the time involved in executing various procedures for alternative mixed-metal surface treatment options.
Hardness of the Metal is particularly important when applying secondary techniques. Harder metals require stronger abrasives during processing. Conversely, excessive force on softer materials may cause irreparable or difficult-to-repair damage to the parts.
Cost and Financial Projections: While several processes may seem ideal for your specific situation, some more challenging tasks may require specialized tools and equipment, potentially leading to budget overruns. Assess whether your decision will result in long-term cost savings.
Surface Finishing Services Capabilities
Anodizing
Anodizing is an electrochemical process that creates a protective oxide layer on the surface of metal parts, enhancing their durability and resistance to corrosion. It works by immersing the metal in a chemical solution and passing an electric current through it, causing the metal to oxidize.
Standard: MIL-A-8625F, AMS2469,AMS2470 or AMS2471
Colors: Anodized natural, black, green, red
Test Specification: ASTM B117 336H
Application: Aerospace
Electroless nickel plating
Electroless nickel plating is a chemical process that deposits a nickel-phosphorus alloy onto a metal substrate without using an electric current, offering uniform coatings with good corrosion and wear resistance. Standard: GB/T 13913-92
Plating type: Electroless nickel
Test index: Hardness>800HV
Application: Automotive industry
Chrome plating
Chrome plating is a technique of electroplating a thin layer of chromium onto a metal object. The chromium layer can be decorative, provide corrosion resistance, facilitate cleaning, and increase surface hardness. Sometimes it may be used for aesthetic purposes.
Standard: GS 90010
Type of plating: Decorative chrome
Plating testing standard: CASS 48H; NSS 360H.
Application: Automotive industry
Polishing
Custom CNC machining parts are manually polished in multiple directions. The surface is smooth and slightly reflective.
Polishing Level: SPI A1 to B1
Roughness: Ra0.005 to Ra 0.05
Material: All materials
Powder Coating
Powder coating is a type of coating that is applied as a free-flowing, dry powder. Unlike conventional liquid paint, which is delivered via an evaporating solvent, powder coating is typically applied electrostatically and then cured under heat or with ultraviolet light.
Color: Custom surface finishing
Texture: Glossy
Price: based on the requirements of the customer.
Material: All metal materials
Painting
Painting involves spraying a layer of paint onto the surface of the part. Color can be matched to a Pantone color number of the customer's choosing, while finishes range from matte to gloss to metallic。
Color: Custom
Texture: Gloss, semi-gloss, flat, metallic.
Price:
Material: Aluminum, Stainless Steel, Steel
Black Oxide
Black oxide or blackening is a conversion coating for ferrous materials, stainless steel, copper, zinc, powdered metals, and silver solder. It is used to add mild corrosion resistance, for appearance, and to minimize light reflection. To achieve maximal corrosion resistance, the black oxide must be impregnated with oil or wax.
Color: black
Texture: Smooth, matte。
Price: based on the requirements of the customer.
Material: Steel, Stainless. Copper, Zinc.
Bead/Sand Blasting
Bead/Sand blasting, also known as abrasive blasting, is a process that uses compressed air to propel abrasive materials against a surface, smoothing, cleaning, or roughening it.
Color: custom.
Texture: custom.
Price: based on the requirements of the customer.
Material: all materials.
#surface #finishing #company
https://www.zhm5axis.com/surface-finishing/
Prototyping
Introduction to the basic Situation of Prototyping
Rapid Prototyping (RP) is a technology that transforms early-stage design concepts into physical prototypes using digital models, providing a fast and cost-effective method to turn ideas into reality. This approach, leveraging techniques such as 3D printing and CNC machining, is highly efficient, often delivering prototypes within 1-3 working days. It is widely used in product design, development, and testing phases.
Choosing prot... morePrototyping
Introduction to the basic Situation of Prototyping
Rapid Prototyping (RP) is a technology that transforms early-stage design concepts into physical prototypes using digital models, providing a fast and cost-effective method to turn ideas into reality. This approach, leveraging techniques such as 3D printing and CNC machining, is highly efficient, often delivering prototypes within 1-3 working days. It is widely used in product design, development, and testing phases.
Choosing prototyping is crucial for accelerating the design process while reducing financial and operational risks associated with new product development. It allows for thorough testing and refinement of designs, ensuring each iteration improves upon the previous one. This process is essential for making informed decisions early in the development cycle, minimizing the risk of costly modifications later.
Rapid prototyping quickly converts early-stage design concepts into physical models, offering a fast and economical way to bring ideas to life. Below are the key characteristics of rapid prototyping:
High Speed: Rapid prototyping can transform design concepts into physical models in a short time, significantly shortening the product development cycle and enabling teams to validate designs quickly.
High Precision: Utilizing advanced digital technologies (e.g., 3D printing, CNC machining), it can accurately replicate complex geometries and details, meeting high-precision design requirements.
Design Flexibility: It supports complex structures and customized designs, allowing for rapid iteration and modification to adapt to design changes.
Material Diversity: A variety of materials, such as plastics, resins, metals, and ceramics, can be used to meet different functional testing and performance validation needs.
Cost-Effectiveness: Compared to traditional manufacturing methods, rapid prototyping reduces mold development and production preparation time, lowering the cost of producing small-batch prototypes.
Functional Validation: Prototypes can be used not only for visual evaluation but also for functional testing, such as assembly tests, stress analysis, and fluid dynamics testing.
Risk Reduction: By identifying design flaws early through rapid prototyping, it minimizes the need for costly modifications and production risks before mass production.
Support for Multiple Processes: These include but are not limited to 3D printing (e.g., FDM, SLA, SLS), CNC machining, and vacuum casting, allowing the selection of the most suitable process based on requirements.
Eco-Friendliness and Sustainability: Rapid prototyping often employs additive manufacturing techniques, which have high material utilization and low waste, aligning with green manufacturing principles.
Wide Range of Applications: It is suitable for industries such as automotive, aerospace, medical, electronics, and consumer goods, supporting the entire development process from concept design to functional validation.
In summary, rapid prototyping has become an indispensable tool in modern product development due to its efficiency, flexibility, precision, and cost-effectiveness, helping businesses accelerate innovation and reduce development risks.
Rapid CNC Prototyping Service
Rapid CNC Prototyping bridges the gap between design and production, offering precision, material flexibility, and scalability. While 3D printing excels in speed for complex geometries, CNC remains unmatched for high-strength, functional prototypes in industries like automotive and aerospace. By leveraging advanced software and hybrid approaches, it continues to evolve as a cornerstone of agile manufacturing.
When to Choose Rapid CNC Prototyping:
Functional Testing: Requires material properties identical to final production.
High-Precision Parts: Critical for fit, form, and function validation.
Metal Components: Superior to 3D printing in strength and durability.
Introduction of Rapid 3D Printing Prototyping Process
Rapid 3D Printing Prototyping: A Comprehensive Guide 3D printing (additive manufacturing) has revolutionized prototyping by enabling rapid iteration of complex designs at a fraction of the time and cost of traditional methods. Below is a detailed breakdown of its process, strengths, limitations, and applications:
Process Overview
Design Preparation:
Create a 3D CAD model and export it as an STL/OBJ file.
Use slicing software (e.g., Cura, PrusaSlicer) to generate layer-by-layer instructions.
Material Selection:
Polymers: PLA, ABS, PETG (FDM), Resins (SLA/DLP), Nylon (SLS).
Metals: Stainless steel, titanium, aluminum (DMLS/SLM).
Composites: Carbon fiber-infused, ceramic-filled filaments.
Printing:
Layer-by-layer deposition (FDM), photopolymer curing (SLA), or laser sintering (SLS/DMLS).
Print times range from minutes (small parts) to days (large, intricate builds).
Post-Processing:
Remove supports, sand, polish, or paint.
Heat treatment (for metal parts) or UV curing (resins).
Conclusion: Rapid 3D printing prototyping is a game-changer for agile product development, offering unparalleled design freedom and speed. While it has limitations in material performance and scalability, advancements in multi-material systems, metal printing, and AI-driven design are expanding its capabilities. By strategically pairing 3D printing with CNC or molding, teams can accelerate innovation while balancing cost, quality, and time.
Advantages & Disadvantages of Prototyping
Prototyping is a critical phase in product development, enabling teams to test ideas, gather feedback, and refine designs before full-scale production. Below is a structured analysis of its key benefits and potential drawbacks:
Advantages of Prototyping
Early Feedback & Validation
Improved Communication
Cost Efficiency
Flexibility & Creativity
User-Centered Design
Technical Verification
Disadvantages of Prototyping
Time & Cost Overruns
Misleading Expectations
Technical Limitations
Focus on Aesthetics Over Function
Reduced Innovation
Waste Generation
Prototyping is invaluable for minimizing risk, enhancing user experience, and accelerating innovation. While challenges like cost and scope creep exist, strategic planning and clear communication can maximize its benefits. Whether physical or digital, prototyping remains a cornerstone of agile, user-centered design across industries.
#prototype #machined #parts
https://www.zhm5axis.com/prototyping/
Shipbuilding
As a professional 5-axis CNC machining service provider, we deliver high-precision, high-complexity core component solutions for the marine industry.
5-Axis CNC Machining for the the Shipbuilding Industry
As a professional 5-axis CNC machining service provider, we deliver high-precision, high-complexity core component solutions for the marine industry. Utilizing advanced 5-axis simultaneous machining technology, we efficiently process critical marine components, including propuls... moreShipbuilding
As a professional 5-axis CNC machining service provider, we deliver high-precision, high-complexity core component solutions for the marine industry.
5-Axis CNC Machining for the the Shipbuilding Industry
As a professional 5-axis CNC machining service provider, we deliver high-precision, high-complexity core component solutions for the marine industry. Utilizing advanced 5-axis simultaneous machining technology, we efficiently process critical marine components, including propulsion systems, power units, and hull structural parts, ensuring reliability and durability under high-salinity, high-pressure, and extreme operating conditions. With extensive experience in machining stainless steel, titanium alloys, and specialty materials, we help clients shorten marine equipment development cycles while improving dimensional accuracy and assembly compatibility. Our solutions strictly comply with DNV-GL, ABS, and other international classification society certifications, providing robust precision machining support for shipbuilders to achieve lightweight design and energy efficiency goals.
Advantages of 5-Axis Machining for Shipbuilding Industry
5-axis machining technology demonstrates significant advantages in shipbuilding, with core value manifested in:
Its multi-axis synchronized machining capability enables single-setup completion of complex surfaces, irregular structures, and high-precision holes, substantially reducing fixture changes for critical marine components (propellers, crankshafts, marine engine blocks, etc.), minimizing repositioning errors, and improving machining accuracy and surface quality.
The technology efficiently processes spatial-angle features unachievable by conventional methods, such as precision milling of hull section welding grooves and forming of streamlined components (fairings), thereby optimizing hydrodynamic performance while reducing energy consumption and noise.
With superior adaptability to difficult-to-machine materials (titanium alloys, high-strength steels) and intelligent toolpath planning, it significantly improves material utilization and shortens production cycles for large structural components - particularly suitable for shipbuilding's customized, small-batch requirements while supporting lightweight and modular design approaches.
#marine #parts
https://www.zhm5axis.com/industry/shipbuilding/
Semi-conductor
As a technology pioneer specializing in 5-axis CNC machining, we provide high-complexity manufacturing solutions for semiconductor industry components with sub-micron precision and multi-axis machining capabilities.
5-Axis CNC Machining for the the Semi-conductor Industry
As a technology pioneer specializing in 5-axis CNC machining, we provide high-complexity manufacturing solutions for semiconductor industry components with sub-micron precision and multi-axis machining capabil... moreSemi-conductor
As a technology pioneer specializing in 5-axis CNC machining, we provide high-complexity manufacturing solutions for semiconductor industry components with sub-micron precision and multi-axis machining capabilities.
5-Axis CNC Machining for the the Semi-conductor Industry
As a technology pioneer specializing in 5-axis CNC machining, we provide high-complexity manufacturing solutions for semiconductor industry components with sub-micron precision and multi-axis machining capabilities. For critical semiconductor equipment parts, including processing tools and packaging components, we optimize machining processes for metals, ceramics, and composites to ensure nanometer-level surface finish and structural stability. Through our comprehensive quality control system and rapid response mechanism, we not only accelerate R&D cycles for high-end components but also support semiconductor industry innovation toward smaller dimensions and higher integration with customized machining solutions, serving as a reliable partner for semiconductor manufacturing technology advancement.
Advantages of 5-Axis Machining for Semiconductor Industry
5-axis CNC machining offers core advantages in semiconductor manufacturing by enabling efficient, high-precision processing of complex geometries (e.g., wafer clamps, vacuum chambers, optical components). Its multi-axis synchronization and single-setup capability allow complete multi-surface machining, significantly reducing repositioning errors (achieving micron-level accuracy). The technology also supports precision machining of semiconductor-grade hard and corrosion-resistant materials (e.g., ceramics, specialty alloys), shortening lead times for intricate parts while meeting miniaturization and high-integration demands. By eliminating multi-fixturing defects, it enhances semiconductor equipment reliability and production efficiency.
#semi #conductor #parts
https://www.zhm5axis.com/industry/semi-conductor/
Robot
Zhihui Precision specializes in providing high-precision 5-axis CNC machining services for the robotics industry, utilizing 5-axis simultaneous machining technology to achieve accurate forming of complex curved surfaces and precision components.
Representative Products-Motor Housing
Product Name: Motor Housing
Material: Aluminum Alloy 7075
Dimensions: D 150×200 mm
Manufacturing: 5-axis CNC Machining
Product Features:
Precision-machined using our 5-axis CNC technology, this product... moreRobot
Zhihui Precision specializes in providing high-precision 5-axis CNC machining services for the robotics industry, utilizing 5-axis simultaneous machining technology to achieve accurate forming of complex curved surfaces and precision components.
Representative Products-Motor Housing
Product Name: Motor Housing
Material: Aluminum Alloy 7075
Dimensions: D 150×200 mm
Manufacturing: 5-axis CNC Machining
Product Features:
Precision-machined using our 5-axis CNC technology, this product overcomes challenging designs with complex annular structures and multi-hole patterns:
• Breaks traditional machining limitations via 5-axis simultaneous technology
• Achieves single-setup precision for:
• Multi-surface machining
• High-accuracy hole positioning
• Spatial angle challenges
Technical highlights:
✓ Ensures precise hole diameter and position matching
✓ Delivers flawless surface finish with tight tolerances
✓ Completes complex structures in a single operation
Demonstrates 5-axis CNC's dual advantages in complex component manufacturing:
• High efficiency
• Micron-level precision
5-Axis CNC Machining for the the Robot Industry
Zhihui Precision specializes in providing high-precision 5-axis CNC machining services for the robotics industry, utilizing 5-axis simultaneous machining technology to achieve accurate forming of complex curved surfaces and precision components. From reducer parts and lightweight robotic arms to joint modules, we help customers improve robots' motion accuracy and stability while optimizing structural designs to reduce weight and energy consumption. With extensive material processing experience (metals/carbon fiber/composites), we ensure the wear resistance and durability of critical components, enabling industrial robots, collaborative robots, and other products to achieve higher levels of repeat positioning accuracy, load capacity and environmental adaptability, providing reliable support for intelligent equipment manufacturing.
Advantages of 5-Axis Machining for the Robotics Industry
5-axis machining technology delivers significant benefits to the robotics sector through its multi-degree-of-freedom complex surface machining capabilities. It enables high-precision forming of core components such as robotic arm joints and end-effectors, completing multi-surface machining in a single setup to greatly enhance production efficiency.The technology’s dynamic response characteristics ensure superior surface quality and structural strength, meeting the lightweight and high-load design requirements of robotics. Additionally, the flexibility of 5-axis machining supports the development of customized complex structures, accelerating robotic innovation and iteration while providing robust technical support for intelligent equipment manufacturing.
#robotic #arm #components
https://www.zhm5axis.com/industry/robot/
Power Components
Zhihui Precision specializing in 5-axis CNC precision component machining, we provide critical component solutions for the power systems sector through high-precision manufacturing technologies and processes. Power components, often referred to as the "heart" of mechanical equipment, have machining accuracy that directly determines the reliability, efficiency, and energy consumption levels of the equipment.
Representative Products-Impeller
Product Name: Impeller
Material: S... morePower Components
Zhihui Precision specializing in 5-axis CNC precision component machining, we provide critical component solutions for the power systems sector through high-precision manufacturing technologies and processes. Power components, often referred to as the "heart" of mechanical equipment, have machining accuracy that directly determines the reliability, efficiency, and energy consumption levels of the equipment.
Representative Products-Impeller
Product Name: Impeller
Material: SUS 304
Dimensions: D 650×450 mm
Manufacturing: 5-axis CNC Machining
Product Features:
Precision-machined using our 5-axis CNC precision machining technology, this product overcomes challenges such as complex surface forming, thin-wall blade deformation, and stringent precision control. Leveraging 5-axis simultaneous machining capabilities, we achieve high-precision blade contour shaping with seamless surface transitions and minimal dimensional deviations.
The blade profile accuracy and surface finish are meticulously controlled, complemented by dynamic balancing equipment calibration to achieve a balancing precision of <0.1 μm, demonstrating our expertise in high-end precision component manufacturing.
5-Axis CNC Machining for the Power Components (Impeller) Industry
Zhihui Precision specializes in 5-axis CNC precision component machining, We provide critical component solutions for the power systems sector through high-precision manufacturing technologies and processes. Power components, often referred to as the "heart" of mechanical equipment, have machining accuracy that directly determines the reliability, efficiency, and energy consumption levels of the equipment. Leveraging multi-axis linkage machining technology, we achieve integrated precision machining of complex structures and surfaces, thin-walled structures, and high-strength alloy materials, ensuring the stability of core components such as transmission assemblies and turbine mechanisms under high-speed and high-pressure conditions.
In power systems, components like power impellers, which serve as the core medium for energy conversion, have profile accuracy and dynamic balance performance that determine the efficiency and lifespan of fluid machinery. We employ 5-axis linkage technology to perform integral milling of impellers, optimizing flow channel design and surface treatment processes to achieve higher energy conversion efficiency during the compression and transportation of media, while simultaneously reducing vibration and noise. This technological breakthrough not only enhances the performance metrics of power equipment but also provides foundational support for innovation in fields such as new energy and aerospace.
Through continuous optimization of machining processes and quality control systems, we are committed to becoming a key technical partner in the manufacturing supply chain of power components. By empowering the upgrade of high-end equipment with precision machining, we aim to drive the advancement of efficiency and sustainability in the industrial sector.
Advantages of 5-Axis Machining for the Power Systems Industry
5-axis linkage machining technology demonstrates irreplaceable advantages in the manufacturing of power components: its multi-axis synchronous motion capability enables the precision forming of complex surfaces, overcoming the limitations of traditional machining in structures such as deep cavities, angled holes, and complex curves. This significantly enhances the machining accuracy and surface quality of core components like turbine blades, gearboxes, and complex structural parts. By completing multiple processes in a single setup, it not only reduces repetitive positioning errors but also shortens the production cycle by 30%-50%, meeting the demand for lightweight and high-strength materials in industries such as new energy, aerospace, and related fields. The unique dynamic tool compensation and intelligent path planning of 5-axis technology allow the flow channel design accuracy of fluid components like impellers and pump bodies to reach the micron level, effectively reducing energy consumption by 15%-20% while improving equipment operational stability and lifespan. This technological innovation not only drives power equipment toward higher power density and lower emissions but also serves as a critical enabler for overcoming challenges in high-end manufacturing.
#power #components
https://www.zhm5axis.com/industry/power-components/
New Energy
Custom Precision New Energy CNC Machining Parts Components Manufacturer
As a professional 5-axis CNC machining manufacturer, we provide high-precision component processing services for the new energy industry, helping clients overcome manufacturing challenges of complex structural parts.
Representative Products-Lithium Battery Dispersing Head
Product Name: Lithium Battery Dispersing Head
Material: Stainless Steel 304
Dimensions: D 160×120 mm
Manufacturing: 5-axis CNC Mach... moreNew Energy
Custom Precision New Energy CNC Machining Parts Components Manufacturer
As a professional 5-axis CNC machining manufacturer, we provide high-precision component processing services for the new energy industry, helping clients overcome manufacturing challenges of complex structural parts.
Representative Products-Lithium Battery Dispersing Head
Product Name: Lithium Battery Dispersing Head
Material: Stainless Steel 304
Dimensions: D 160×120 mm
Manufacturing: 5-axis CNC Machining
Product Features:
Precision-machined using our 5-axis CNC technology, this product fully demonstrates 5-axis machining advantages:
• Handles complex 3D structures through 5-axis synchronized precision control
• Accurately processes multi-angle irregular blades and curved surfaces
• Solves multi-dimensional spatial machining accuracy challenges
• Completes multi-surface machining in a single setup
Ensures:
✓ Dimensional accuracy and geometric tolerances
✓ Flawless, smooth metal surface finish
Showcases 5-axis CNC's high-precision and high-flexibility advantages in complex component manufacturing through efficient processes and excellent craftsmanship.
#parts #of #a #lithium #battery
https://www.zhm5axis.com/industry/new-energy/
Medical
Custom Precision Medical CNC Machining Parts Components Manufacturer
As a technology enterprise specializing in 5-axis CNC machining, we deliver comprehensive manufacturing solutions for the medical industry - from complex surgical instruments and implants to core components of advanced medical equipment - leveraging the high-precision advantages of multi-axis synchronized machining.
Representative Products-Cardiac Stent Functional Test Piece
Product Name: Cardiac Stent Functional Te... moreMedical
Custom Precision Medical CNC Machining Parts Components Manufacturer
As a technology enterprise specializing in 5-axis CNC machining, we deliver comprehensive manufacturing solutions for the medical industry - from complex surgical instruments and implants to core components of advanced medical equipment - leveraging the high-precision advantages of multi-axis synchronized machining.
Representative Products-Cardiac Stent Functional Test Piece
Product Name: Cardiac Stent Functional Test Piece
Material: 316L Stainless Steel
Dimensions: 26.0×26.0×20.0mm
Manufacturing: 5-axis CNC Machining
Product Features:
Precision-machined using our 5-axis CNC technology, this product overcomes complex spatial structure machining challenges:
• Achieves uniform surface grid width through 5-axis synchronized precision control
• Solves multi-surface cooperative machining accuracy requirements
• Attains ultra-fine surface roughness of Ra<0.08μm
Demonstrates 5-axis CNC's technical superiority in complex component processing, showcasing exceptional standards from precision forming to surface quality in high-end manufacturing.
5-Axis CNC Machining for the the Medical Industry
As a technology enterprise specializing in 5-axis CNC machining, we deliver comprehensive manufacturing solutions for the medical industry - from complex surgical instruments and implants to core components of advanced medical equipment - leveraging the high-precision advantages of multi-axis synchronized machining.
Utilizing the multi-dimensional processing capabilities of 5-axis machines, we efficiently manufacture complex geometries, thin-walled components, and micro-features that challenge conventional processes, while ensuring full compliance with ISO 13485 standards.
Through stringent process controls and precision inspection technologies, we enable clients to:
• Accelerate development cycles
• Enhance product performance
• Drive continuous innovation in life sciences
We provide reliable manufacturing assurance for the advancement of medical devices and healthcare technologies, supporting:
✓ Next-generation surgical tools with micron-level (±0.005mm) accuracy
✓ Patient-specific implants with biocompatible materials (Ti, PEEK, etc.)
✓ Miniaturized components for minimally invasive applications
Advantages of 5-Axis Machining for the Medical Industry
5-axis CNC machining technology offers significant benefits to the medical sector. Its high precision and multi-axis synchronization capabilities enable efficient processing of complex surfaces and intricate structures, meeting stringent geometric accuracy requirements for implants, surgical instruments, and other medical products.
The technology adapts flexibly to special materials like titanium alloys and PEEK, ensuring both biocompatibility and mechanical performance. By reducing setup changes and integrating processes, it significantly improves production efficiency while minimizing error accumulation. Additionally, it supports personalized and customized production, accelerating the development and clinical translation of innovative medical devices—ultimately delivering safer, more precise diagnostic and therapeutic solutions for patients.
Why Choose Zhihui Precision
With years of experience in manufacturing precision medical components, Zhihui Precision has established professional and rigorous confidentiality processes, stringent quality inspection procedures, and a team of over a hundred seasoned technical experts to meet your diverse requirements for high-tech products. We strictly adhere to medical industry cleanliness standards (residual particles ≤5μm). Leveraging our technical expertise and extensive manufacturing experience, we will provide you with optimized component design solutions, helping to reduce costs, improve efficiency, shorten production cycles, and accelerate project progress.
Quality Assurance
Zhihui Precision has obtained ISO 9001:2015 quality management system certification, and certifications for aerospace AS9100 & medical 13485 are currently under application, with relevant certificates expected to be acquired soon.
Technical Support
Zhihui Precision has a team of more than one hundred experienced professionals and technicians. Many of them have over 10 years of professional experience in the 5-axis machining and manufacturing industry. Some members of the core management and technical team possess over 15 years of experience in this field.
Rapid Delivery
Zhihui Precision is equipped with an advanced MES (Manufacturing Execution System) production management system, developed in-depth collaboration with Beijing Jingdiao Company. With the effective support of the MES system, we have significantly improved product processing efficiency.
#cnc #machining #medical #parts
https://www.zhm5axis.com/industry/medical/
