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首頁 >> 産品展示 >> 醫學組織工程醫療器械設備生物材料力學檢驗測試系統 >> XHD-HSS骨科研究實用微型生物力學試驗機Orthopaedic Research Applications Miniature Biomechanics Tester
XHD-HSS骨科研究實用微型生物力學試驗機
Orthopaedic Research Applications Miniature Biomechanics Tester
重要功能:
→用于小動物(兔子、大鼠和小鼠)的實驗研究,對骨關節、肌腱、韌帶進行生物力學試驗和分析評價。對生物工程和生物移植材料進行生物力學測定和分析評價。提供生物力學試驗和實驗數據分析的專業技術培訓與指導。
→XHD-HSS骨科研究實用微型生物力學試驗機,微小生物材料拉伸試驗、壓縮試驗、循環拉壓試驗。微小醫學試件拉伸試驗,自動求取最大試驗力值、斷裂力值、屈服強度、屈服點、抗拉強度,繪制力學試驗曲線。
→臨床醫學研究評價、人工關節置換術生物力學研究、人工關節臨床前測試、膝關節生物力學測試研究。
→組織工程研究測試、運動醫學研究評價、脊柱生物力學研究測試、骨移植入物材料研究測試、骨組織移植與再生研究測試、足踝部生物力學測試研究、全膝關節置換假體設計生物力學測試研究、骨折固定和愈合的生物力學測試研究、軟骨與骨組織工程學的生物力學測試研究。
→微循環力學測試研究、肌肉力學測試研究、骨骼力學測試研究、醫用生物力學測試研究。
重要參數:
→拉壓試驗載荷容量100N/200N/400N/500N/1000N;
→拉壓試驗速度0.01~300mm/min(12in/min),速度精度±0.5%以內;
→可調拉伸試驗行程0~360mm;
→位置分辨力0.033μm,位置控制精度±0.5%以內;
→試驗荷載力精度±0.5%以內(2%~100%F.S);
→試驗采集頻率1000Hz(10Hz~1000Hz可自設分點);
→試驗機尺寸LWH≈700x300x430mm,WT≤25kg;
→全數字閉環HRJ-Test英文版骨科研究實用微型生物力學試驗機測控軟件;
引用標准、文獻文件:
5kN帶柄股骨部件疲勞性能試驗機;1kN/3kN/5kN椎間融合器生物力學性能試驗機;HRJ-5kN金屬接骨板彎曲疲勞性能試驗機;5kN骨螺釘彎曲疲勞試驗機;5kN骨針彎曲疲勞試驗機;XHD-HSS肩膝關節肌腱韌帶人工關節材料生物力學性能試驗機;0.5N.m~200N.m微機控制接骨螺釘扭矩試驗機;液晶全自動螺栓螺釘扭矩試驗機;50kN~300kN骨科接骨板試驗機;5N~20kN牙科骨水泥植入物力學試驗機;1kN~10kN醫療器械疲勞壽命試驗機系統;1kN~10kN外科植入物疲勞試驗機;10N.m~200N.m醫用螺絲刀扭矩疲勞測試儀;5000N水凝膠高分子材料拉伸性能測試儀;2kN~20kN醫學橡塑制品拉伸測試儀;10kN~100kN生物材料部件構件拉扭試驗機;醫用接骨螺釘壓力旋動扭矩自攻性能雙位試驗機;全髋關節膝關節假體磨損試驗機;不鏽鋼餐具刀叉拉扭試驗機;2000kN生物顆粒材料成型強度試驗機;骨科植入物壓扭疲勞試驗機測試系統;5kN生物醫學材料疲勞試驗機;20N.m帶鎖髓內釘靜態扭轉試驗機;300kN假體假肢關節力學試驗機;預制顱骨板力學試驗機;矯形用U型釘力學試驗機;假肢結構檢驗試驗配置測試系統;5kN樹脂骨水泥彎曲疲勞試驗機;400N肩膝關節肌腱力學試驗機;大小鼠骨骼肌腱韌帶損傷醫學康複檢測性能試驗系統;椎間融合器生物力學疲勞性能試驗機;ISO 9585;ISO 10328-1;ISO 6475;ISO 7206-4;ISO 7206-6;ISO 7206-8;ISO 7206-10;ISO 7206-13;ISO 14879-1;ISO 10334;ISO 8827;ISO 16429;ISO 14243-3:2014;ISO 5837-2;ISO 16402;ISO 4965;ISO 376;ISO 11491-2017;ISO 5832-1;ISO 5832-2;ISO 5832-3;ISO 5832-4;ISO 5832-5;ISO 5832-6;ISO 5832-7;ISO 5832-8;ISO 5832-9;ISO 5832-11;ISO 5832-12;ISO 13356;ISO 7348;ISO 7206-6;ISO 7206-8;ISO 7206-4;ISO 7207-1;ISO 14879-1;ISO 1099;ISO 5837-1;ISO 14602;ISO 14630;NF S94-063;BS EN 10002-1:ASTM F2193-07;ASTM F1582;ASTM F1798;ASTM F1839;ASTM E1942;ASTM E122;ASTM F1264-07;ASTM F138;ASTM E1823;ASTM F1611;ASTM A214M;ASTM A450M;ASTM E691;ASTM F86;ASTM F339;ASTM F383;ASTM F565;ASTM F622;ASTM F67;ASTM F136;ASTM F90;ASTM F452;ASTM F139;ASTM F75;ASTM F543;ASTM E467;ASTM E8M-04;ASTM F382;AMS 5050;SAE J524;YY 0459-2025外科植入物丙烯酸類樹脂骨水泥;YY/T0809.10-2022外科植入物部分和全髋關節假體;組合式股骨頭抗靜載力測定;hrjtest;YY/T0809.13-2020帶柄股骨部件頭部固定抗扭轉力矩的測定;YY/T0809.12髋臼杯形變測試方法;YY/T0809.4帶柄股骨部件疲勞性能試驗和性能要求;YY/T0809.6-帶柄股骨部件頸部疲勞性能試驗和性能要求;YY/T0810.1-2024外科植入物全膝關節假體胫骨托疲勞性能的測定;外科植入物全膝關節假體磨損載荷控制位移控制的磨損試驗機的載荷和位移參數及相關試驗環境條件;YY/T1426.2-2016/XG1-2023全膝關節假體的磨損測量方法;矯形外科用丙烯酸類樹脂骨水泥彎曲疲勞性能試驗方法;YY/T1503外科植入物金屬接骨板彎曲疲勞性能試驗方法;YY/T1504金屬接骨螺釘軸向拔出力試驗方法;YY/T1505外科植入物金屬接骨螺釘自攻性能試驗方法;YY/T1506外科植入物金屬接骨螺釘旋動扭矩試驗方法;YY/T1782-2021骨科外固定支架力學性能測試方法;YY/T0342接骨板彎曲強度和剛度的測定;YY/T0119.2脊柱植入物脊柱內固定系統部件第2部分金屬脊柱螺釘;YY/T0119.3金屬脊柱板;YY/T0119.5金屬脊柱螺釘靜態和疲勞彎曲強度測定試驗方法;YY/T0959椎間融合器力學性能試驗方法;YY/T0960椎間融合器靜態軸向壓縮沈陷試驗方法;YY 0017骨接合植入物金屬接骨板;YY/T096脊柱內固定系統組件及連接裝置的靜態及疲勞性能評價方法;YY/T1559脊柱植入物椎間盤假體靜態及動態性能試驗方法;YY 0018骨接合植入物金屬接骨螺釘;YY/T0346-2022骨接合植入物金屬股骨頸固定釘;YY/T0591金屬帶鎖髓內釘;YY/T1655-2019骨接合植入物接骨板和接骨螺釘微動腐蝕試驗方法;YY/T1435組織工程醫療器械産品水凝膠表征指南;YY/T1576組織工程醫療器械産品可吸收材料植入試驗;YY/T1598-用于脊柱融合的外科植入物的骨修複或再生評價試驗指南;YY/T1616生物材料支架性能測試指南;YY/T 0345.1外科植入物金屬骨針通用要求;YY/T0345.3-2014克氏針;YY/T0662不對稱螺紋和球形下表面的金屬接骨螺釘機械性能要求和試驗方法;YY/T1705髋關節假體陶瓷股骨頭抗沖擊性能測定方法;YY/T0651.1外科植入物全髋關節假體的磨損;YY/T0651.3軌道軸承型磨損試驗機載荷位移參數及相關的試驗環境條件;GB/T18375-2024下肢假肢的結構檢驗要求和試驗方法;YY/T1924-2025;GB/T12417.2-2025;膝關節髋關節生物材料摩擦磨損疲勞試驗系統;GB/T12417.1-2024;GB/T19701.1-2024;GB/T19701.2-2024;GB/T19701.5-2024;GB/T22750.1-2024;仿生髋關節膝關節磨損模擬試驗機;GB/T22750.2-2024;GB/T23101.4-2023;GB 4234.2-2024;GB 4234.3-2024;GB 4234.7-2024;YY 0117.1-2024;YY 0117.2-2024;YY 0117.3-2024;
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;Total Hip-Joint Total Knee-Joint Prostheses Wear Testing Machines;Implants for surgery-Acrylic resin cements;Implants for surgery-Partial and total hip-joint prostheses;Determination of resistance to static load of modular femoral heads;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;Endurance properties testing and performance requirements of neck region of stemmed femoral components;Joint replacements-Total knee-joint prostheses;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;Determination of bending strength and stiffness of bone plates;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;Standard test method for 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;Standard test methods for static and dynamic characterization of spinal artificial discs;Implants for osteosynthesis Metallic bone plates;Implants for osteosynthesis Metallic bone screws;Metallic fixation screw for femur neck;Metallic lockable intramedullary nail;Standard test method for measuring fretting corrosion of osteosynthesis plates and screws;Standard guide for characterization of hydrogels;hrjtest;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;Metallic skeletal pins and wires-Part 1:General requirements;kirschner skeletal wires;Implants for surgery-Metal bone screws with asymmetrical thread and spherical under-surface-Mechanical 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 for test;Loading and displacement parameters for orbital bearing type wear testing machines and corresponding environmental conditions for test;hrjtest;Prosthetics-Structural testing of lower-limb prostheses-Requirements and test methods;
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