机器人测试系统
我们的机械测试机器人通过令人难以置信的加速度值实现了高循环时间,从而实现了模块化、动态性和精确性。STEP 实验室开发并提供基于机器人的测试系统。该系统由特殊版本的测试中心软件管理,可轻松处理三维运动测试。最大测试速度为 2000 mm/s,最大负载为 3000 N。
机器人测试系统
我们的机械测试机器人通过令人难以置信的加速度值实现了高循环时间,从而实现了模块化、动态性和精确性。STEP 实验室开发并提供基于机器人的测试系统。该系统由特殊版本的测试中心软件管理,可轻松处理三维运动测试。最大测试速度为 2000 mm/s,最大负载为 3000 N。
机械测试系统
STEP 实验室开发并提供基于机器人的测试系统。该系统由特殊版本的测试中心软件管理,可轻松处理三维运动测试。
应用领域
- 汽车:车门、座椅移动和用户界面测试
- 家用电器:测试门、抽屉和用户界面
- 所有需要高度复杂动作的产品和系统
优势
- 机器人可进行无限量的测试
- 高度复杂的动作
- 借助我们的测试中心软件,可轻松进行测试编程
- 高效且能耗极低
- 安装简单 投资可长期重复使用
性能
- 机器人测试系统的性能范围非常广泛。
- STEP 实验室可根据您的测试需求设计合适的解决方案。
- 最大测试速度为 2000 mm/s,最大负载为 3000 N。
认证标准
塑料
| TEST | MATERIAL | STANDARD | DESCRIPTION |
| Static tests | Plastic | ASTM D638 | Tensile properties of plastics |
| Static tests | Plastic | ISO 527-1 ISO 527-2 |
Plastics-Determination of Tensile Properties |
金属
| TEST | MATERIAL | STANDARD | DESCRIPTION |
| Static tests | Metal | ASTM E21 | High-temperature tensile testing of metallic materials |
| Static tests | Metal | ASTM E290 | Material bending test for ductility |
| Static tests | Metal | ASTM E517 | Plastic deformation ratio r for sheet metal |
| Static tests | Metal | ASTM E646 | Tensile hardening exponents (n-values) of sheet metal materials |
| Static tests | Metal | ASTM E8M | Tensile testing of metallic materials |
| Static tests | Metal | ASTM E9 | Compression testing of metallic materials at room temperature |
| Static tests | Metal | EN 10002-1:2001 (replaced by ISO EN 6892-1:2019) | Tensile testing of metallic materials. Test method at room temperature |
| Static tests | Metal | ISO 6892-1 | Metallic materials – Tensile testing Part 1: Test method at room temperature |
| Static tests | Metal | ISO 7438 | Metallic materials. Bending test. |
| Static tests | Metal | ISO 783 | Metallic materials – Tensile test of steel at high temperature |
单车
| TEST | MATERIAL | STANDARD | DESCRIPTION |
| Static / Fatigue | Bike | EN 15194 | Electrically assisted pedal cycles – EPAC Bicycles – test methods |
| Static / Fatigue | Bike | ISO 4210-3 | Bicycle safety requirements – Part 3: Common test methods |
| Static / Fatigue | Bike | ISO 4210-4 | Safety requirements for bicycles – Part 4: Braking test methods |
| Static / Fatigue | Bike | ISO 4210-5 | Bicycle safety requirements – Part 5: Steering test methods |
| Static / Fatigue | Bike | ISO 4210-6 | Safety requirements for bicycles – Part 6: Test methods for frame and fork |
| Static / Fatigue | Bike | ISO 4210-7 | Bicycle safety requirements – Part 7: Test methods for wheels and rims |
| Static / Fatigue | Bike | ISO 4210-8 | Safety requirements for bicycles – Part 8: Pedal and drive system test methods |
| Static / Fatigue | Bike | ISO 4210-9 | Bicycle safety requirements – Part 9: Test methods for saddles and seatposts |
生物医学
| TEST | MATERIAL | STANDARD | DESCRIPTION |
| Static / Fatigue | Biomedical | ASTM F1264 | Standard Specifications and Test Methods for Intramedullary Fixation Devices |
| Static / Fatigue | Biomedical | ASTM F1717 | Standard test methods for spinal implant structures in a vertebrectomy model |
| Static / Fatigue | Biomedical | ASTM F1798 | Standard test method for evaluating static and fatigue properties of interconnection mechanisms and subassemblies used in spinal arthrodesis implants |
| Static / Fatigue | Biomedical | ASTM F1800 | Standard Practice for Cyclic Fatigue Testing of Metal Components of the Tibial Plateau of Total Knee Joint Prostheses |
| Static / Fatigue | Biomedical | ASTM F2068 | Standard specifications for femoral prostheses – metal implants |
| Static / Fatigue | Biomedical | ASTM F2077 | Test methods for intervertebral body fusion devices |
| Static / Fatigue | Biomedical | ASTM F2193 | Standard specifications and test methods for components used in surgical fixation of the spinal skeletal system |
| Static / Fatigue | Biomedical | ASTM F2502 | Standard specifications and test methods for resorbable plates and screws for internal fixation implants |
| Static / Fatigue | Biomedical | ASTM F2580 | Standard practice for evaluating the modular connection of a proximally fixed femoral hip prosthesis |
| Static / Fatigue | Biomedical | ASTM F2706 | Standard test methods for occipito-cervical and occipito-cervical-thoracic spinal implant constructions in a vertebrectomy model |
| Static / Fatigue | Biomedical | ASTM F382 | Standard Specifications and Test Method for Metal Bone Plates |
| Static / Fatigue | Biomedical | ASTM F384 | Standard specifications and test methods for angled metal devices for orthopaedic fracture fixation |
| Static / Fatigue | Biomedical | ASTM F543 | Standard Specifications and Test Methods for Metal Medical Bone Screws |
| Static / Fatigue | Biomedical | EN 843-1 | Mechanical properties of monolithic ceramics at room temperature – Determination of flexural strength |
| Static / Fatigue | Biomedical | ISO 11405 | Tooth structure adhesion test |
| Static / Fatigue | Biomedical | ISO 12189-8 | Mechanical testing of implantable spinal devices – Fatigue test method for spinal implant assemblies using anterior support |
| Static / Fatigue | Biomedical | ISO 14801 | Dentistry – Implants – Dynamic load test for endosseous dental implants |
| Static / Fatigue | Biomedical | ISO 14879-1 | Total knee joint replacement Determining the strength properties of tibial knee trays |
| Static / Fatigue | Biomedical | ISO 6872 | Dentistry – Ceramic materials |
| Static / Fatigue | Biomedicale | ISO 7206 | Surgical implants – Partial and total hip joint replacements |
| Static / Fatigue | Biomedical | ISO 9585 | Surgical implants – Determination of flexural strength and stiffness of bone plates |
橡胶
| TEST | MATERIAL | STANDARD | DESCRIPTION |
| Static tests | Rubber | ISO 2439 | Determination of hardness (indentation technique) |
| Static tests | Rubber | ISO 3386 | Determination of stress-strain characteristics in compression |
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