Strength Improvement of Insert Joint for Composite Sandwich Structure
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Abstract:
본 연구에서는 새롭게 개발된 "강도 향상 인써트"에 대해 조인트 시편을 제작하여 Pull-out 및 전단시험을 수행하여 보통 인써트의 조인트 강도와 비교하고 그 파손 특성을 조사하였다. 이를 통해 새로운 인써트에 대한 성능을 확인하였다. 시험 결과, 새로운 "강도 향상 인써트"는 기존의 보통 인써트에 비해 Pull-out 강도는 2.1배, 전단강도는 2.04배 향상되는 것을 확인하였다. 따라서 향후 높은 인써트 강도를 요구하는 구조에 유용하게 사용될 수 있을 것이다. In this study, joint strength and failure characteristics were experimentally examined with pull-out and shear specimens in which new designed "high strength insert" was applied. The performance of the new insert was compared with typical insert design. The experimental results showed that the "high strength insert" had the joint strengths of 2.1 times in the pull-out specimens and 2.04 times in the shear specimen compared with typical insert joints. Therefore, the new developed "high strength insert" will be usefully used in the aerospace structure.Keywords:
Insert (composites)
Shear Strength
Abstract The wall stresses and insert load in a two‐dimensional flat‐bottomed bin with a flow corrective insert were investigated. The static wall stress distributions produced by the granular solids were measured and compared with the theoretical prediction using the differential slice method. The variations in the dynamic wall stresses and the dynamic response of the insert load with time were obtained. The comparison of the experimental insert load to the theoretical prediction was demonstrated. In addition, the effect of the flow corrective insert upon the wall stress and insert load was investigated. As the insert half‐angle increases, the effect of disrupting the contact force network above the insert decreases, and the insert load produced by the granular solids increases. Employing the results obtained using stress measurements, the pulsation phenomena of wall stress and insert load in a bin with a triangle flow corrective insert may be further understood.
Insert (composites)
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Insert (composites)
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It is always difficult to make metal liquid and insert melt with efficient metallurgical combination. The paper is about the volume calculating formula of insert in the method of insert casting. So it is a better guiding role to predict the insert's volumn.
Insert (composites)
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A new method was proposed to predict the shear strength of rock joint based on support vector machine. Support vector machine learning and prediction were conducted according to the data of photoelastic tests and mechanical properties of fractal joint. The result showed this method can predict the shear strength of rock joint and is suitable for presenting the complex behavior of rock.
Shear Strength
Direct shear test
Relevance vector machine
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Aim: This research is about comparing the performance of poly-crystalline diamond (PCD) insert and uncoated cemented carbide insert for improving the material removal rate (MRR) in CNC turning. Materials and Methods: The material investigated in this research was SS316L. PCD insert was set as the experimental group and uncoated insert was set as the control group. The cutting parameters employed in this process were cutting speed, feed rate and depth of cut. Totally 27 samples per group were machined by using the selected parameters. Results: The mean MRR value obtained for the PCD tool is 0.22593 g/s, whereas it is 0.07600 g/s for the uncoated tool. The significance value obtained among the experimental group and control group is 0.000 (p<0.05). Conclusion: Within the limits of this study, the outcome of the research shows that MRR is more when the specimen is machined by PCD insert than machined by uncoated insert.
Insert (composites)
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This paper make the insert design as masterstroke,not only describes the condition of the injection-mould insert design but also the insert's advantages and the disadvantages;the application of the insert designing and how to design the insert's fixation and anti-rotation.
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To create a high reliability solder joint using IMCs dispersed in the joint, the joints with four types of lead-free solder were investigated. The joint with Sn-3.0Ag-0.7Cu-5.0In (mass%) has high die shear force compared to other joints investigated, and the joint with the Ni-electroplated Cu bonded at 300 o C for 30 min showed the maximum die shear force due to formation of a large number of fine IMCs. In the joint with Sn-0.7Cu-0.05Ni (mass%), uniform dispersion of a large number of IMCs was achieved, although the die shear force of the joint is lower than that of the joint with Sn-3.0Ag-0.7Cu-5.0In. In the joint with Sn-5.0Sb (mass%), a solder area was remained in the center of the joint although a large number of columnar IMCs form at the joint interface. The die shear force of the joint with Sn-5.0Sb increased with increasing the bonding time due to formation and growth of IMCs. In the joint with Sn-3.0Ag-0.5Cu (mass%), IMCs formed at the joint interface and did not disperse in the entire joint.
Shear Strength
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본 연구에서는 새롭게 개발된 "강도 향상 인써트"에 대해 조인트 시편을 제작하여 Pull-out 및 전단시험을 수행하여 보통 인써트의 조인트 강도와 비교하고 그 파손 특성을 조사하였다. 이를 통해 새로운 인써트에 대한 성능을 확인하였다. 시험 결과, 새로운 "강도 향상 인써트"는 기존의 보통 인써트에 비해 Pull-out 강도는 2.1배, 전단강도는 2.04배 향상되는 것을 확인하였다. 따라서 향후 높은 인써트 강도를 요구하는 구조에 유용하게 사용될 수 있을 것이다. In this study, joint strength and failure characteristics were experimentally examined with pull-out and shear specimens in which new designed "high strength insert" was applied. The performance of the new insert was compared with typical insert design. The experimental results showed that the "high strength insert" had the joint strengths of 2.1 times in the pull-out specimens and 2.04 times in the shear specimen compared with typical insert joints. Therefore, the new developed "high strength insert" will be usefully used in the aerospace structure.
Insert (composites)
Shear Strength
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Citations (4)