5N.m/200N金属接骨螺钉自攻力扭矩试验系统,测量具有自攻性能的金属接骨螺钉旋入标准材料时所需轴向自攻压力荷载值。同时测量旋入扭矩荷载和轴向位移变量值。HRJ-Test自攻力扭矩试验测控软件(多通道多功能易操控),采集频率1000Hz,实时记录处理分析轴向压力扭矩轴向位移。同时记录两个Y轴数据(Y轴1为力和扭矩,Y轴2为位移)随时间的变化。满足ASTM F543-2013附录A4(医用接骨螺钉自攻性能试验方法);YY/T1505-2016金属接骨螺钉自攻性能试验方法;恒瑞金试验机;YY/T1504-2016金属接骨螺钉轴向拔出力试验方法;YY/T1506-2016金属接骨螺钉旋动扭矩试验方法;
自攻力最大预载荷1.0N以保证螺钉和工装紧密契合;旋入扭矩按照3r/min速度施加扭矩于螺钉头部,旋转4圈的扭矩值为最大旋入扭矩;反向旋转4圈螺钉测量旋出最大扭矩;旋入和旋出试验过程中施加不大于11.7N轴向载荷;ASTM E122;ISO 6475;YY 0018-2016骨接合植入物金属接骨螺钉;YY/T0019.1-2011横截面为三叶形或V形髓内钉;YY/T0662-不对称螺纹和球形下表面金属的金属接骨螺钉机械性能要求和试验方法;YY/T0509-生物可吸收内固定板和螺钉的标准要求和测试方法;YY 0346-金属股骨颈固定钉;YY 0605.12-2016;YY 0605.9-2015;YY/T0605.5;YY/T0605.6;YY/T0605.7;YY/T0605.8;YY/T0661-2017;YY/T1576-2017;YY/T0640-2016;YY 0341-2009;YY/T0727.1;DIN ISO 5832;ISO 9268;ISO 5833;ISO 5835; ASTM F2502; ASTM F116;
Metallic Bone Screws Self-tapping Force Torque Test System;Implant for surgery-Test method for determining the self-tapping performance of metallic bone screws;Medical Engineering Medical Device Product Biological Materials Mechanical Testing System;Stemmed Femoral Components Endurance Properties Tester;Intervertebral Body Fusion Device Biomechanics Tester;Medical Device Products Fatigue Life Testing System;Implants for Surgery Cyclic Fatigue Testing Machine;Metallic Bone Plates Bending Fatigue Properties Tester;Tendon Ligament Shoulder Knee Joint Medical Testing Machine;Artificial Joint Material Biomechanical Properties Tester;Miniature Horizontal Tensile Testing Machine;Computer Bone Screws Torque Tester;Screws Studs Torque Tester;Bolt Strength Torsion Tester;Knife Fork Tensile Torsion Testing Machine;Stainless Steel Cutlery Tensile Torsion Tester;Dentistry Implants Mechanical Testing Machine;Metallic Bone Plates Testing Machine;Granular Materials Compression Molding Strength Tester;Medical Rubber Plastics Film Products Tensile Tester;Determination of resistance to torque of head fixation of stemmed femoral components;Deformation test method for ace tabular shells;Determination of endurance properties and performance of stemmed femoral components;Determination of endurance properties of knee tibial trays;Loading and displacement parameters for wear-testing machines with load control and corresponding environmental conditions for test;Implants for surgery-Wear of total knee-joint prostheses Methods of measurement;Loading and displacement parameters for wear-testing machines with displacement control and corresponding environmental conditions for test;Acrylic resin cement-Flexural fatigue testing of acrylic resin cements used in orthopedics;Test method for determining the bending fatigue properties of metallic bone plates;Test method for determining the axial pullout strength of metallic bone screws;Test method for determining the self-tapping performance of metallic bone screws;Test method for driving torque of metallic bone screws;Test methods for mechanical property of external skeletal fixation devices;Spinal implants-Components used in the surgical fixation of the spinal skeletal system;Metallic spinal screws;Metallic spinal plates;Metallic spinal rods;Test method for measure the static and fatigue bending strength of metallic screws;Test methods for mechanical property of intervertebral body fusion devices;measuring load induced subsidence of intervertebral body fusion device under static axial compression;Standard guide for evaluating the static and fatigue properties of interconnection mechanisms and subassemblies used in spinal arthrodesis implants;hrjtest;Implants for osteosynthesis Metallic bone plates;Implants for osteosynthesis Metallic bone screws;HRJ Tester;Metallic fixation screw for femur neck;Standard test method for measuring fretting corrosion of osteosynthesis plates and screws;Tissue engineering medical device products-Standard practice for implantation assessment of absorbable restorable biomaterials;Bone Standard guide for bone repairing or regenerative evaluation of implant for spinal fusion;Standard guide for characterization and testing of biomaterial scaffolds;kirschner skeletal wires;Metal bone screws with asymmetrical thread and spherical under-surface-Mechanical requirements and test methods;lower limb prostheses Requirements and test methods;Determination of impact resistance of ceramic femoral heads for hip joint prostheses;Implants for surgery-Wear of total hip-joint prostheses;Loading and displacement parameters for wear testing machines and corresponding environmental conditions;Loading and displacement parameters for orbital bearing type wear testing machines and corresponding environmental conditions; |
