螺钉植入扭矩对五种不同角度稳定系统的推出和悬臂弯曲性能的影响。

Effect of screw insertion torque on push-out and cantilever bending properties of five different angle-stable systems.

作者信息

Boero Baroncelli Alessandro, Reif Ulrich, Bignardi Cristina, Peirone Bruno

机构信息

Department of Animal Pathology, University of Turin, Turin, Italy.

出版信息

Vet Surg. 2013 Apr;42(3):308-15. doi: 10.1111/j.1532-950X.2013.01088.x. Epub 2013 Feb 1.

DOI:10.1111/j.1532-950X.2013.01088.x

PMID:23373545

Abstract

OBJECTIVE

To compare the screw push-out strength and resistance to cantilever bending of 5 different angle-stable systems using 4 different insertion torque values to tighten locking screws.

STUDY DESIGN

In vitro mechanical testing of 5 screw-plate constructs.

SAMPLE POPULATION

Screw plate constructs (n = 60) were tested; 12 of each design, 3 for each torque value.

METHODS

To compare push-out strength, screws were loaded in axial direction on the screw tip until loosening of the locking mechanism was recorded. For cantilever bending test, screws were loaded perpendicularly to their longitudinal axis at 2 mm of distance from the under surface of the plate. Load was applied in displacement control at 1 mm/min.

RESULTS

There was a significant difference between the 5 different angle-stable systems regarding both push-out and cantilever bending strength. There was an influence of insertion torque value on push-out strength for 2 systems and insertion torque value influenced cantilever bending behavior only in 1 locking system.

CONCLUSIONS

Locking mechanisms using "thread in thread" principle provided a stronger screw push-out behavior. Screws materials and core diameter of the different screws were directly related to cantilever bending strength.

摘要

目的

使用4种不同的拧入扭矩值来拧紧锁定螺钉，比较5种不同角度稳定系统的螺钉推出强度和抗悬臂弯曲能力。

研究设计

对5种螺钉-钢板结构进行体外力学测试。

样本

测试了螺钉-钢板结构（n = 60）；每种设计12个，每个扭矩值3个。

方法

为比较推出强度，在螺钉尖端沿轴向加载螺钉，直至记录到锁定机制松动。对于悬臂弯曲试验，在距钢板下表面2 mm处垂直于螺钉纵轴加载螺钉。以1 mm/min的位移控制施加载荷。

结果

5种不同角度稳定系统在推出强度和悬臂弯曲强度方面均存在显著差异。2种系统中拧入扭矩值对推出强度有影响，仅1种锁定系统中拧入扭矩值影响悬臂弯曲性能。

结论

采用“螺纹中螺纹”原理的锁定机制具有更强的螺钉推出性能。不同螺钉的材料和芯径与悬臂弯曲强度直接相关。

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螺钉植入扭矩对五种不同角度稳定系统的推出和悬臂弯曲性能的影响。

Effect of screw insertion torque on push-out and cantilever bending properties of five different angle-stable systems.

作者信息

机构信息

出版信息

OBJECTIVE

STUDY DESIGN

SAMPLE POPULATION

METHODS

RESULTS

CONCLUSIONS

目的

研究设计

样本

方法

结果

结论

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