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ZKPTC brings over a decade of expertise in CNC machining, operating state-of-the-art facilities in Shenzhen and Dongguan, China. We specialize in crafting precision components from metals, high-temperature alloys, and engineering plastics, offering seamless one-stop solutions, including advanced surface treatments. Powered by cutting-edge equipment like DMG, Mazak, and Beijing Jingdiao five-axis machines, as well as Mori-Seiki and Swiss-type lathes, we deliver exceptional accuracy and quality for every project. Click the link below to discover more
Please attach your 2D CAD drawings and 3D CAD models in any format (including STEP, IGES, DWG, PDF, STL, etc.). If you have multiple files, compress them into a ZIP or RAR. Alternatively, send your RFQ via email to sales@zkptcs.com.
Virtue * Attentive * Specialty * Value
At ZK Precision Technology (ZKPTC), we deliver tailored solutions backed by a skilled team and a global network spanning Germany, Japan, the U.S., and more. With a foundation of integrity and innovation, we prioritize your needs, providing seamless service and reliable, high-quality components to meet your most demanding requirements.
CNC Expertise
Annual Production of Precision Parts
Advanced CNC Machines
Satisfied Customers Worldwide
Specialists in high-precision machining, capable of handling complex geometries and tight tolerances, ensuring exceptional accuracy across various industries.
Comprehensive capabilities, including CNC machining, surface treatment, and assembly, providing end-to-end project management and faster lead times.
Equipped to support customized solutions for prototyping and low-volume production without compromising on quality or delivery.
Extensive experience in oil and gas, mining, optics, and medical sectors, enabling tailored solutions that meet unique requirements.
Adherence to ISO 9001 standards and Western tolerance criteria ensures consistent, defect-free products.
Skilled service team providing efficient, seamless communication and customer support throughout the project.
Module parts are precision-engineered components with dimensions of 3.0x40x65mm, crafted from high-performance materials such as Monel 400, Monel 500, 2.4360, UNS N04400, Hastelloy, soft magnetic alloys, and Inconel 718. With an exceptional accuracy and flatness of 0.005mm, these parts are manufactured using advanced techniques, including CNC machining, five-axis machining, surface grinding, and internal and external cylindrical grinding. To ensure superior surface quality and corrosion resistance, they undergo specialized surface treatments such as electrolytic polishing and passivation, guaranteeing reliable performance in demanding applications.
Fuel accessories are precision-engineered components with dimensions of 100x280x400mm, made from robust materials including SKD11, SKD61, D2, SKS5, P20, DC12, and DH6. Designed to an ultra-high precision of 0.001mm and achieving a hardness of HRC 58-60, these parts are processed using advanced techniques such as CNC machining, wire cutting, EDM, and deep hole drilling. To enhance performance and durability, they undergo specialized surface treatments like nitriding, carburizing, annealing, normalizing, quenching, and tempering, ensuring they meet the stringent requirements of fuel system applications.
Blades are customizable precision components tailored to specific requirements, manufactured from premium aluminum alloys such as 7075-T6, AlZn5.5MgCu, 6082-T6, 5083-T5, and 6063-T6. With a precision tolerance of 0.01mm, these blades are expertly crafted using advanced techniques like CNC milling, 5-axis machining, and surface grinding. To ensure superior surface quality and enhanced durability, they undergo specialized treatments including sandblasting, hard anodizing, brushing, and spraying.
Turbine blades are high-precision components with a size of 60x60cm, fabricated from robust materials such as 65Mn, 1.1221, C60, Gr15, SUJ2, and 100Cr6. Engineered to a remarkable precision of 0.005mm, these blades are crafted using advanced processing techniques including CNC turning, CNC milling, wire cutting, and grinding. To enhance strength and durability, they undergo heat treatments like carbonitriding and hardening to achieve a hardness level of HRC40-45.
The base is a precision-engineered component with dimensions of 30x50cm, crafted from high-quality materials including CuZn39Pb1, C3600, CZ122, CuSn6, CA104, C10100, C12000, H62, and QSn7-0.2. Manufactured to a precision tolerance of 0.01mm, it is produced using advanced processing methods such as CNC turning and knurling. To enhance corrosion resistance and surface aesthetics, the base undergoes specialized treatments including nickel plating, zinc plating, chromium plating, blackening, and phosphate treatment.
The fuel system is a precision-engineered component with dimensions of 85x85x140cm, constructed from high-performance materials such as PEEK, PTFE, POM, PA66, ABS, PBT, PC, and PE. Designed to a precision tolerance of 0.01mm, it is manufactured using advanced processing techniques, including CNC milling, CNC turning, internal and external cylindrical grinding, boring, and deep hole processing. These methods ensure exceptional accuracy and durability, meeting the stringent requirements of fuel system applications.
Medical accessories are precision-engineered components, customizable to specific requirements, crafted from high-performance materials such as 7075-T6, 2024-T6, 5083-T6, AiSI6Cu4, and LM21. Manufactured with a precision tolerance of 0.01mm, these parts are processed using advanced machining techniques, including CNC milling, CNC turning, four-axis machining, and five-axis machining. To ensure superior surface quality, durability, and corrosion resistance, they undergo specialized treatments such as sandblasting, shot blasting, spraying, polishing, anodizing, and plating. These processes guarantee reliable performance in demanding medical applications.
The connector is a customizable precision component crafted from high-strength materials such as SCM440, 1.7223, 40CrMoA, 4140, 40Mn, SCM420, 50CrVA, and 35CrMo. Manufactured with a precision tolerance of 0.01mm, it is processed using advanced techniques, including CNC milling, CNC turning, wire cutting, EDM, and grinding. To ensure exceptional durability, wear resistance, and mechanical strength, the connector undergoes specialized heat treatments such as nitriding, carburizing, carbonitriding, and hardening to achieve a hardness level of HRC55-60. These treatments guarantee reliable performance in demanding industrial applications.
The base is a precision-engineered component with dimensions of 120x120x200mm, constructed from high-performance materials such as 17-4PH, 0Cr17Ni4Cu4Nb, S17400, SUS630, SUS316, SUS304, SUS420, 4Cr13, and 1Cr13. Manufactured with a precision tolerance of 0.01mm, it undergoes advanced processing techniques, including CNC milling, four-axis machining, five-axis machining, and wire cutting. To enhance surface quality, durability, and performance, the base is treated with specialized surface treatments such as solution treatment, QPQ, high-frequency heat treatment, and bright treatment, ensuring reliability in demanding applications.
The bracket is a precision-engineered component with dimensions of 3.0x40x65mm, crafted from high-performance materials such as Monel 400, Monel 500, 2.4360, UNS N04400, Hastelloy, soft magnetic alloys, and Inconel 718. Designed with an exceptional accuracy and flatness of 0.005mm, it is manufactured using advanced processing techniques, including CNC machining, five-axis machining, surface grinding, and internal and external cylindrical grinding. To ensure superior surface quality, corrosion resistance, and extended durability, the bracket undergoes specialized surface treatments such as electrolytic polishing and passivation, meeting the highest industry standards.
Connect accessories are precision components with dimensions of Φ120x55mm, crafted from high-performance materials such as F51, 2205, 17-4PH, 0Cr17Ni4Cu4Nb, S17400, SUS630, SUS316, SUS304, SUS420, 4Cr13, and 1Cr13. Manufactured to a precision tolerance of 0.01mm, these parts are processed using advanced techniques, including CNC turning, CNC milling, four-axis machining, five-axis machining, and wire cutting. To ensure exceptional durability, corrosion resistance, and surface quality, they undergo specialized surface treatments such as solution treatment, QPQ, high-frequency heat treatment, and electrolytic polishing.
The connector is a precision-engineered component with dimensions of Φ130x165mm, manufactured from high-grade materials such as SUS316, 17-4PH, SUS304, 0Cr17Ni4Cu4Nb, S17400, SUS630, SUS303, SUS420, 4Cr13, 1Cr13, and SUS410. Designed with an accuracy and flatness tolerance of 0.005mm, it is produced using advanced processing methods, including precision casting, CNC turning, four-axis machining, and internal and external cylindrical grinding. To ensure exceptional surface quality, durability, and corrosion resistance, the connector undergoes specialized surface treatments such as electrolytic polishing, passivation, electroplating, and shot blasting.
The medical equipment shell is a precision-engineered enclosure with dimensions of 200x200x400mm, crafted from durable materials such as cold-rolled sheet (SPCC), hot-rolled sheet (SHCC), galvanized sheet (SECC, SGCC), aluminum, and stainless steel plates. With a precision tolerance of 0.05mm, it is manufactured using advanced techniques including laser cutting, stamping, bending, and riveting. To ensure enhanced durability, corrosion resistance, and an aesthetically refined appearance, the shell undergoes specialized surface treatments such as sandblasting, spraying, anodizing, plating, laser engraving, silk screening, and pad printing. These processes guarantee reliable performance, long-lasting durability, and compliance with the stringent standards of medical equipment applications.
The electronic equipment shell is a precision-engineered enclosure with dimensions of 120x350x350mm, constructed from high-quality materials such as cold-rolled sheet (SPCC), hot-rolled sheet (SHCC), galvanized sheet (SECC, SGCC), aluminum, and stainless steel plates. With a precision tolerance of 0.05mm, it is manufactured using advanced processing techniques, including laser cutting, stamping, bending, and riveting. To ensure durability, corrosion resistance, and a polished aesthetic finish, the shell undergoes specialized surface treatments such as sandblasting, spraying, anodizing, plating, laser engraving, silk screening, and pad printing. These treatments ensure reliable performance and a professional appearance, meeting the requirements of modern electronic equipment applications.
The equipment bracket is a precision-engineered component with dimensions of 3.0x200x320mm, crafted from high-quality materials such as cold-rolled sheet (SPCC), hot-rolled sheet (SHCC), galvanized sheet (SECC, SGCC), aluminum, and stainless steel plates. With a precision tolerance of 0.05mm, it is manufactured using advanced processing methods, including laser cutting, stamping, bending, and riveting. To ensure durability, corrosion resistance, and an aesthetically refined finish, the bracket undergoes specialized surface treatments such as sandblasting, spraying, anodizing, plating, laser engraving, silk screening, and pad printing. These processes guarantee reliable performance and visual appeal, meeting the demands of diverse industrial and technical applications.
The electronic equipment shell is a precision-engineered enclosure with dimensions of 300x250x250mm, constructed from durable materials such as cold-rolled sheet (SPCC), hot-rolled sheet (SHCC), galvanized sheet (SECC, SGCC), aluminum, and stainless steel plates. With a precision tolerance of 0.05mm, it is manufactured using advanced processing techniques, including laser cutting, stamping, bending, and riveting. To ensure superior durability, corrosion resistance, and a refined aesthetic finish, the shell undergoes surface treatments such as sandblasting, spraying, anodizing, plating, laser engraving, silk screening, and pad printing. These processes guarantee reliable performance and a professional appearance, meeting the demands of modern electronic applications.
The medical equipment shell is a precision-engineered enclosure with dimensions of 80x200x280mm, made from high-quality materials such as cold-rolled sheet (SPCC), hot-rolled sheet (SHCC), galvanized sheet (SECC, SGCC), aluminum, and stainless steel plates. Manufactured with a precision tolerance of 0.05mm, it undergoes advanced processing methods, including laser cutting, stamping, bending, and riveting. To ensure enhanced durability, corrosion resistance, and a refined appearance, the shell is treated with surface processes such as sandblasting, spraying, anodizing, plating, laser engraving, silk screening, and pad printing. These treatments guarantee reliable performance and aesthetic appeal, meeting the stringent requirements of medical equipment applications.
The electronic equipment shell is a precision-engineered enclosure with dimensions of 30x150x220mm, constructed from durable materials such as cold-rolled sheet (SPCC), hot-rolled sheet (SHCC), galvanized sheet (SECC, SGCC), aluminum, and stainless steel plates. Designed with a precision tolerance of 0.05mm, the shell is manufactured using advanced processing techniques, including laser cutting, stamping, bending, and riveting. To ensure superior surface quality, durability, and aesthetics, it undergoes specialized treatments such as sandblasting, spraying, anodizing, plating, laser engraving, silk screening, and pad printing. These processes guarantee reliability and visual appeal, meeting the requirements of modern electronic applications.
The equipment bracket is a precision-engineered component with dimensions of 3.0x200x320mm, crafted from high-quality materials such as cold-rolled sheet (SPCC), hot-rolled sheet (SHCC), galvanized sheet (SECC, SGCC), aluminum, and stainless steel plates. With a precision tolerance of 0.05mm, it is manufactured using advanced processing methods, including laser cutting, stamping, bending, and riveting. To ensure durability, corrosion resistance, and an aesthetically refined finish, the bracket undergoes specialized surface treatments such as sandblasting, spraying, anodizing, plating, laser engraving, silk screening, and pad printing. These processes guarantee reliable performance and visual appeal, meeting the demands of diverse industrial and technical applications.
The equipment bracket is a precision-engineered component with dimensions of 3.0x200x320mm, crafted from high-quality materials such as cold-rolled sheet (SPCC), hot-rolled sheet (SHCC), galvanized sheet (SECC, SGCC), aluminum, and stainless steel plates. With a precision tolerance of 0.05mm, it is manufactured using advanced processing methods, including laser cutting, stamping, bending, and riveting. To ensure durability, corrosion resistance, and an aesthetically refined finish, the bracket undergoes specialized surface treatments such as sandblasting, spraying, anodizing, plating, laser engraving, silk screening, and pad printing. These processes guarantee reliable performance and visual appeal, meeting the demands of diverse industrial and technical applications.
The equipment bracket is a precision-engineered component with dimensions of 3.0x200x320mm, crafted from high-quality materials such as cold-rolled sheet (SPCC), hot-rolled sheet (SHCC), galvanized sheet (SECC, SGCC), aluminum, and stainless steel plates. With a precision tolerance of 0.05mm, it is manufactured using advanced processing methods, including laser cutting, stamping, bending, and riveting. To ensure durability, corrosion resistance, and an aesthetically refined finish, the bracket undergoes specialized surface treatments such as sandblasting, spraying, anodizing, plating, laser engraving, silk screening, and pad printing. These processes guarantee reliable performance and visual appeal, meeting the demands of diverse industrial and technical applications.
The equipment bracket is a precision-engineered component with dimensions of 3.0x200x320mm, crafted from high-quality materials such as cold-rolled sheet (SPCC), hot-rolled sheet (SHCC), galvanized sheet (SECC, SGCC), aluminum, and stainless steel plates. With a precision tolerance of 0.05mm, it is manufactured using advanced processing methods, including laser cutting, stamping, bending, and riveting. To ensure durability, corrosion resistance, and an aesthetically refined finish, the bracket undergoes specialized surface treatments such as sandblasting, spraying, anodizing, plating, laser engraving, silk screening, and pad printing. These processes guarantee reliable performance and visual appeal, meeting the demands of diverse industrial and technical applications.
The equipment bracket is a precision-engineered component with dimensions of 3.0x200x320mm, crafted from high-quality materials such as cold-rolled sheet (SPCC), hot-rolled sheet (SHCC), galvanized sheet (SECC, SGCC), aluminum, and stainless steel plates. With a precision tolerance of 0.05mm, it is manufactured using advanced processing methods, including laser cutting, stamping, bending, and riveting. To ensure durability, corrosion resistance, and an aesthetically refined finish, the bracket undergoes specialized surface treatments such as sandblasting, spraying, anodizing, plating, laser engraving, silk screening, and pad printing. These processes guarantee reliable performance and visual appeal, meeting the demands of diverse industrial and technical applications.
The equipment bracket is a precision-engineered component with dimensions of 3.0x200x320mm, crafted from high-quality materials such as cold-rolled sheet (SPCC), hot-rolled sheet (SHCC), galvanized sheet (SECC, SGCC), aluminum, and stainless steel plates. With a precision tolerance of 0.05mm, it is manufactured using advanced processing methods, including laser cutting, stamping, bending, and riveting. To ensure durability, corrosion resistance, and an aesthetically refined finish, the bracket undergoes specialized surface treatments such as sandblasting, spraying, anodizing, plating, laser engraving, silk screening, and pad printing. These processes guarantee reliable performance and visual appeal, meeting the demands of diverse industrial and technical applications.
Shell parts are precision-engineered components made from high-performance materials such as PET, POM, PC, PA6, PPA, ABZ, PP, TPU, TPE, and PMMA. With a precision tolerance of ±0.10mm, these parts are produced using advanced molding techniques, including silicone rubber molds, epoxy resin molds, aluminum molds, and steel molds. These manufacturing processes ensure excellent dimensional accuracy, durability, and surface quality. Designed to provide reliable protection and structural integrity, shell parts are widely used in industries such as electronics, automotive, medical devices, and consumer goods, offering robust enclosures and aesthetic appeal for various applications.
Electrical accessories are precision-engineered components crafted from high-performance materials such as PET, POM, PC, PA6, PPA, ABZ, PP, TPU, TPE, and PMMA. With a precision tolerance of ±0.10mm, these components are manufactured using advanced molding techniques, including silicone rubber molds, epoxy resin molds, aluminum molds, and steel molds. These processes ensure exceptional dimensional accuracy, durability, and consistent performance. Designed to meet the demanding requirements of electrical systems, these accessories provide reliable insulation, stability, and safety, making them essential for a wide range of applications in industrial, commercial, and residential electrical installations.
Power tool accessories are precision-engineered components made from durable and high-performance materials, including PET, POM, PC, PA6, PPA, ABZ, PP, TPU, TPE, and PMMA. With a precision tolerance of ±0.10mm, these accessories are manufactured using advanced molding techniques such as silicone rubber molds, epoxy resin molds, aluminum molds, and steel molds. These processes ensure excellent dimensional accuracy, strength, and reliability, enabling the accessories to withstand demanding conditions and heavy usage. Designed for compatibility and efficiency, they are widely used in power tools across industries such as construction, manufacturing, and home improvement.
The quick connector is a precisely engineered component crafted from high-performance materials such as PET, POM, PC, PA6, PPA, ABZ, PP, TPU, TPE, and PMMA. With a precision tolerance of ±0.10mm, it is manufactured using advanced molding techniques, including silicone rubber molds, epoxy resin molds, aluminum molds, and steel molds. These methods ensure excellent dimensional accuracy, durability, and consistent performance. The quick connector is widely used in automotive, electronics, and fluid systems, offering secure, efficient, and reliable connection solutions for various industrial and commercial applications.
The quick connector is a precision-engineered component made from high-performance materials, including PET, POM, PC, PA6, PPA, ABZ, PP, TPU, TPE, and PMMA. Designed with a precision tolerance of ±0.10mm, it is manufactured using advanced molding techniques such as silicone rubber molds, epoxy resin molds, aluminum molds, and steel molds. These processing methods ensure excellent dimensional accuracy, durability, and reliable performance, making the quick connector ideal for applications requiring secure, efficient, and repeatable connections in industries such as automotive, electronics, and fluid systems.
Auto parts are precision-engineered components manufactured from high-performance materials, including PET, POM, PC, PA6, PPA, ABZ, PP, TPU, TPE, and PMMA. With a precision tolerance of ±0.10mm, these parts are produced using advanced molding techniques such as silicone rubber molds, epoxy resin molds, aluminum molds, and steel molds. These processing methods ensure durability, dimensional accuracy, and consistent performance, meeting the stringent requirements of automotive applications for components such as interior trims, structural supports, and mechanical assemblies.
Stainless steel fittings are precision-engineered components known for their strength, durability, and excellent corrosion resistance. They undergo advanced surface treatments, including electrolytic polishing, sandblasting, chrome plating, nickel plating, copper plating, brushing, etching, chemical coloring, anti-fingerprint treatment, and pickling with passivation. These treatments enhance their surface smoothness, wear resistance, and visual appeal while ensuring optimal performance in challenging environments. Widely used in industries such as construction, automotive, aerospace, medical, and marine, stainless steel fittings provide reliable functionality, long-lasting durability, and a refined aesthetic finish.
Stainless steel fittings are precision-engineered components renowned for their exceptional strength, corrosion resistance, and longevity. They undergo advanced surface treatments, including electrolytic polishing, sandblasting, chrome plating, nickel plating, copper plating, brushing, etching, chemical coloring, anti-fingerprint treatment, and pickling with passivation. These treatments enhance surface smoothness, durability, and resistance to wear and environmental factors, while also improving their aesthetic appeal. Widely used in industries such as construction, automotive, medical, and aerospace, stainless steel fittings deliver reliable performance, a refined finish, and long-lasting quality in demanding applications.
Aluminum accessories are high-precision components known for their lightweight, durability, and excellent corrosion resistance. They undergo advanced surface treatments, including polishing, sandblasting, brushing, chrome plating, nickel plating, anodizing, tinting, conductive anodizing, passivation, spraying, chroming, and pad printing. These treatments not only enhance their surface finish, aesthetics, and durability but also improve electrical conductivity and resistance to environmental factors. Widely used in industries such as electronics, aerospace, automotive, and consumer goods, aluminum accessories offer a perfect balance of functionality, visual appeal, and long-lasting performance.
Aluminum accessories are precision-engineered components valued for their lightweight, durable, and corrosion-resistant properties. They undergo a variety of advanced surface treatments, including polishing, sandblasting, brushing, chrome plating, nickel plating, anodizing, tinting, conductive anodizing, passivation, spraying, chroming, and pad printing. These treatments enhance surface smoothness, aesthetic appeal, corrosion resistance, and electrical conductivity, ensuring optimal performance and longevity. Widely used in industries such as electronics, aerospace, automotive, and consumer goods, aluminum accessories combine functionality and visual refinement to meet the highest quality standards.
Stainless steel fittings are precision-engineered components known for their durability, corrosion resistance, and sleek appearance. They undergo advanced surface treatments, including electrolytic polishing, sandblasting, chrome plating, nickel plating, copper plating, brushing, etching, chemical coloring, anti-fingerprint treatment, and pickling with passivation. These treatments enhance their surface quality, resistance to wear and corrosion, and overall aesthetic appeal. Widely used in industries such as construction, automotive, medical, and aerospace, stainless steel fittings deliver reliable performance and a polished finish, making them ideal for demanding applications.
Aluminum accessories are precision-engineered components designed for durability, functionality, and aesthetic appeal. They undergo advanced surface treatments, including polishing, sandblasting, brushing, chrome plating, nickel plating, anodizing, tinting, conductive anodizing, passivation, spraying, chroming, and pad printing. These treatments enhance the surface finish, corrosion resistance, and electrical conductivity while ensuring a sleek appearance. Widely used in industries such as electronics, automotive, aerospace, and consumer goods, aluminum accessories combine lightweight properties with exceptional strength, making them ideal for demanding applications.
| Material | Type |
|---|---|
| Aluminum | 6061, 6063, 6082, 5083, 5754, 2011, 2014, 2024, 5052, 6101, 6060, 7075, A356, A380, ZLD107, AiSI6Cu4, LM21 |
| Copper | HPb59-1, CuZn39Pb1, C3600, CZ122, CuSn6, CA104, C10100, C12000, QSn7-0.2, CuZn40, CZ109, CZ122, TP1, TP2, Cu-OF, C17200, CuCr1, CuBe2, H62, H65, QSn7-0.2, QAl9-4, QAl10-4-4, C62300, C63020, C65500 |
| Steel | 20#, 45#, C45, S45C, S300, S300Pb, 40Mn, 60Mn, Q235, 12L14, 1215, 1.1221, C60, Gr15, SUJ2, 100Cr6, SKD11, SKD61, D2, SKS5, P20, DC12, DH6, SCM440, 1.7223, 40CrMoA, 4140, 40Mn, SCM420, 50CrVA, 35CrMo, 40Cr, 20CrMn, 40CrMoV5 |
| Plastics | Polyformaldehyde-POM, Polyetheretherketone-PEEK, Teflon-PTFE, Nylon-PA6, PA66, Polyphenylsulfide-PPS, Polycarbonate-PC, Polysulfone-PSU |
| Alloys | Monel 400, Monel 500, 2.4360, UNS N04400, HASTELLOY C-276, 1J50, 1J79, 4J32B, Inconel 718, GH4169, 4145, 2132, 625, 600, X-750 |
| Stainless steel | 17-4PH, 0Cr17Ni4Cu4Nb, S17400, SUS630, SUS316, SUS304, SUS304L, SUS303, SUS316Ti, SUS321, SUS420, SUS430, SUS431, 4Cr13, 1Cr13, 0Cr18Ni9, 1Cr18Ni9MoZn, 0Cr17Ni13Mo, 1Cr18Ni9Ti, 1.4301, 1.4305, 1.4401, 1.4435, 1.4104, 1.4034 |
| Titanium | TC4, TC6, TC9, TC11, TA1, TA2, Ti-6A-4V, Grade5, Grade25, TA11, TA15, Ti-5Al-2.5Sn, Ti-6Al-6V-2Sn, Ti-13V-11Cr, IMI3173Al, TC17, TC20, TC1 |
| No | Machine Type | Brand | Origin | Model number | Quantity | Year of Purchase | Working Stroke | Accuracy &Tolerance |
| 1 | CNC Milling 5Axis | DMG | Germany | DMU80MONO | 1 | 2018.08 | X:950*Y:850*Z:650mm | Positioning Accuracy:0.006 Repositioning Accuracy:0.005 18000RPM Tolerance: 0.003 |
| 2 | CNC Milling 5Axis | Matsuura | Japarn | matsuuranx-520 | 2 | 2017.03 | X:550*Y:750*Z:450mm | Positioning Accuracy:0 .008 Repositioning Accuracy:0 .003 2000RPM Tolerance: 0.002 |
| 3 | CNC Milling 5Axis | JDR | China | JDR200TP13SHA | 5 | 2019.08 | X:500*Y:600*Z:400mm | Positioning Accuracy:0.005 Re positioning Accuracy: 0.008 24000RPM ,Tolerance: 0.005 |
| 4 | CNC Milling 9Axis | Mazk | Japan | INTEGFEX1-200S | 1 | 2019.13 | X:100*600*Y:100*Z:2160mm | Positioning Accuracy:0.005 Repositioning Accuracy:0.003 24000RPM Tolerance:0.003 |
| 5 | CNC Milling 3Axis | Brother | Japar | S500 X1 | 20 | 2018.01 | X:500*Y:460*Z:300mm | Positioning Accuracy:0.005 Repositioning Accuracy:0.008 24000RPM Tolerance:0.01 |
| 6 | CNC Milling 3Axis | Taikan | China | T550H | 30 | 2015.08 | X:550*Y:400*Z:350mm | Positioning Accuracy:0.005 Repositioning Accuracy:0.01 20000RPM Tolerance:0.015 |
| 7 | CNC Milling 3Axis | QiaoFeng | China | QF-1750 | 3 | 2022.04 | X:1370*Y:1300*Z:550 | Positioning Accuracy:0.01 Repositioning Accuracy:0.02 16000RPM Tolerance:0.02 |
| 8 | Automatie Lathe | TSUGAMI | Japan | S206A\SS327\5205A\B0208 | 82 | 2022.08 | Φ20\Φ25\Φ55*3000 | Positioning Accuracy:0.005 Repositioning Accuracy:0.005 18000RPM Tolerance:0.003 |
| 9 | CNC lathe | Shenyang | China | It35L/65: | 10 | 2016.01 | Φ35\Φ55*2500*650 | Positioning Accuracy:0.005 Repositioning Accuracy:0.006 16000RPM Tolerance:0.01 |
| 10 | Milling complex machining center | Mazak | Japan | QTN100MSY/KS | 20 | 2022.08 | Φ55*2500*350 | Positioning Accuracy:0.005 Repositioning Accuracy:0.003 20000RPM Tolerance:0.005 |
| 11 | Combined turning and milling | DMG | Germany | NT6600 | 1 | 2022.05 | Φ1070*6150 | Positioning Accuracy:0.005 Repositioning Accuracy:0.005 12000RPM Tolerance:0.005 |
| 12 | Laser cutting machine | DiNeng | China | DNE1530FCCBDX1000W | 2 | 2017.09 | 1500*3000*10 | Accuracy ±0.05mm |
| 13 | CNC bending machine | DongYangji | Japan | HPB12530 | 3 | 2018.05 | 1.2m | Accuracy ±0.02mm |
Upload your design files for a quick quote, accurate delivery time, and free DFM analysis.
Please attach your 2D CAD drawings and 3D CAD models in any format (including STEP, IGES, DWG, PDF, STL, etc.). If you have multiple files, compress them into a ZIP or RAR. Alternatively, send your RFQ via email to sales@zkptcs.com.
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