• Title/Summary/Keyword: Tensile Strength and Hardness

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Influence of Heat Treatment on the Structures and Mechanical Properties of Cast Irons. (주철(鑄鐵)의 열처리조건(熱處理條件)에 의한 조직(組織) 및 기계적(機械的) 성질(性質)에 관(關)한 연구(硏究)(1))

  • Kim, Hong-Beom;Choi, Chang-Ock
    • Journal of Korea Foundry Society
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    • v.2 no.2
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    • pp.10-17
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    • 1982
  • This study has been carried out to determine the change of mechanical properties and microstructures by the heattreatment to relieve the residual stresses for gray cast irons. The results have been obtained from the experiment as follows; 1) The annealing above $600^{\circ}C$ for the stress relieving of gray cast iron decrease the tensile strength and hardness 2) The decrease reates of tensile strength and hardness of gray cast iron after annealing above $600^{\circ}C$ are increased with increasing the holding time. 3) The gray cast iron containing the elements of Mn, Cr has increased the heating temperature for the decrease of tensile strength and hardness. 4) The decrease of mechanical properties by annealing are assumed that the formation of ferrite takes placed from the decomposition of eutectoid cementite in the matrix.

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Mechanical Properties and Morphology of the Recycled Thermoplastic Elastomer Molding (재생 엘라스토머 수지의 기계적 물성과 모폴로지)

  • No, B.S.;Lee, G.H.;Jeong, Y.D.
    • Transactions of Materials Processing
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    • v.16 no.1 s.91
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    • pp.31-35
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    • 2007
  • Automotive weather strip should have good weather ability, sealability, durability, etc. to perform its duty as body sealing for vehicles under different harsh environments. Due to its comprehensive properties, thermoplastic vulcanizate(TPV) is widely employed in weather strip as alternative for ethylene propylene diene rubber(EPDM). In this study, the influences of the recycled TPV on the tensile strength and hardness were investigated. As results of the injection molding experiment, the recycled TPV's tensile strength and hardness were higher than the virgin TPV and recycled TPV's extension was improve. The morphology showed that recycled TPV's rubber particles became smaller than virgin TPV's rubber particles.

A STUDY ON TENSILE STRENGTH AND PHYSICAL ALTERATION OF THERMALLY RECYCLED METAL BRACKETS (열처리한 재생금속 bracket의 인장강도와 물리적 변화에 관한 연구)

  • Park, Chang-Gee
    • The korean journal of orthodontics
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    • v.15 no.2
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    • pp.261-269
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    • 1985
  • The purpose of this study was to measure and compare tensile strength for 3 types of new direct-bond brackets and the same brackets after recycling and to evaluate recycled brackets to determine the extent of physical alteration after recycling. Three types of new direct-bond brackets were bonded to recently extracted human premolar teeth and the tensile strength was measured by Universal Testing Machine. The brackets were recycled by thermal process and the tensile test was repeated. To determine the extent of physical alteration after recycling, the slot width and the hardness of metal brackets were measured and to analyze the microstructure of the brackets, photographs of the bracket microstructure were taken. Following results were obtained: 1. The tensile strength of recycled brackets was lower than that of new brackets, but there was no statistically significant difference. (p>0.05) 2. In the new and recycled brackets, the tensile strength of mini-mesh base bracket was statistically higher than that of conturlok base bracket, $(p\leq0.05)$ but there was no statistically significant difference between production of other companies. (p>0.05) 3. The slot width of metal bracket was enlarged from 0.459mm to 0.469mm as a result of the recycling process. (p>0.005) 4. As temperature was increased in thermal treatment, the grains of bracket metal gradually became coarser and the hardness was decreased.

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A Study on Mechanical Properties According to the Depth of Notch in SM20C Friction Welding Zone (SM20C 마찰용접부(摩擦鎔接部)의 노치 깊이에 따른 기계적(機械的) 성질(性質) 연구(硏究))

  • Lee, Se-Gyoung;Chung, Jun-Mo;Park, Chun-Bong;Min, Taeg-Ki
    • Transactions of the Korean Society of Machine Tool Engineers
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    • v.16 no.1
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    • pp.1-8
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    • 2007
  • The present study examined the mechanical properties of the friction welding zone of solid and hollow shafts made with SM20C according to the depth of the notch. Friction welding was conducted at welding conditions of 2,000 rpm, friction pressure of 60MPa, friction time of 1.4 seconds, upset pressure of 100MPa, and upset time of 2.0 seconds. In the tensile strength test, the tensile strength decreased as the depth of the notch increased. Tensile strength was moderately high when the depth of the notch was 2mm. The tensile strength of the welding zone increased as the friction revolution radius increased, because the latter led to the generation of adequate friction heat. According to the hardness test, hardness likewise increased as e friction revolution radius increased. In the bending test, the bend strength of the solid shaft decreased when the depth of the notch was 0-2mm but increased when the latter was 3-5mm. With regard to the hollow shaft, the bend strength drastically decreased when the depth of the notch was 3-4mm. Upon examination it was found that the microstructure became finer when the friction revolution radius increased.

A Study on the Properties in Friction Weldability of SCNCrM-2B and SM25C (SCNCrM-2B와 SM25C의 마찰용접특성에 관한 연구)

  • Lee Se-Gyoung;Sim Young-Man;Min Taeg-Ki
    • Transactions of the Korean Society of Machine Tool Engineers
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    • v.15 no.4
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    • pp.49-55
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    • 2006
  • This study deals with the friction welding of SM25C and SCNCrM-2B; The friction time was variable conditions under the conditions of spindle revolution 2,000rpm, friction pressure of 100MPa, upset pressure of l50MPa, and upset time of 4.0 seconds. Under these conditions, the microstructure of weld interface, tensile fracture surface and mechanical tests were studied, and so the results were as follows. 1. When the friction time is 2.0 seconds, the tensile strength of friction welds was 874MPa, which is around as much as 117% of the tensile strength of base metal(SM25C), the bending strength of friction welds was 1,354MPa, which is around as much as 108.9% of the bending strength of base metal(SM25C). 2. At the same condition, the maximum vickers hardness was Hv443 at SCNCrM-2B nearby weld interface, which is higher Hv20 than condition of the friction time 0.5 seconds. 3. The results of microstructure analysis show that the structures of two base materials have fractionated and rearranged along a column due to heating and axial force during friction, which has affected in raising hardness and tensile strength.

The Impacts of the Recasting of Non-precious Metal Alloy for Porcelain Fused to Metal Crowns on Strength (도재소부금관용 비귀금속 합금의 반복주조가 강도에 미치는 영향)

  • Chung, Hee-Sun;Oh, Gyung-Jae
    • Journal of Technologic Dentistry
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    • v.31 no.3
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    • pp.27-34
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    • 2009
  • This study compared and analyzed changes to the mechanical characteristics to nonprecious metal alloy for porcelain fused to metal crowns when it's repetitively used without the addition of new alloy. Metal samples were made with the Verabond V nonprecious metal alloy. Those samples to measure tensile and yield strength were made in the standardized design(ISO 22674), those to measure bond strength in the $25mm{\times}3mm{\times}0.5mm$ format, and those to measure hardness in the $10mm{\times}10mm{\times}1mm$ format. A ceramic to measure bond strength was made at the center of the metal sample in the length of $8{\ss}{\AE}$ by using Noritaker Super Porcelain EX-3. Ten samples were prepared for one, three and five repetitions of casting each. The test results were as follows: 1. The more casting was repeated, the more significantly tensile strength dropped. 2. The more casting was repeated, the more significantly yield strength dropped. 3. Repetitive casting didn't cause significant changes to bond strength. 4. The Vickers hardness significantly fell with increasing repetitions of casting. There were no changes to bond strength observed with the increasing number of repeating casting. But tensile strength, yield strength, and Vickers hardness decreased. Those results indicate that repeated casting can affect durability and that careful attention should be paid by avoiding repetitive use or excessive increase of uses when no new alloy is added.

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Experimental study of welding effect on grade S690Q high strength steel butt joint

  • Chen, Cheng;Chiew, Sing Ping;Zhao, Mingshan;Lee, Chi King;Fung, Tat Ching
    • Steel and Composite Structures
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    • v.39 no.4
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    • pp.401-417
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    • 2021
  • This study experimentally reveals the influence of welding on grade S690Q high strength steel (HSS) butt joints from both micro and macro levels. Total eight butt joints, taking plate thickness and welding heat input as principal factors, were welded by shielded metal arc welding. In micro level, the microstructure transformations of the coarse grain heat affected zone (CGHAZ), the fine grain heat affected zone (FGHAZ) and the tempering zone occurred during welding were observed under light optical microscopy, and the corresponding mechanical performance of those areas were explored by micro-hardness tests. In macro level, standard tensile tests were conducted to investigate the impacts of welding on tensile behaviour of S690Q HSS butt joints. The test results showed that the main microstructure of S690Q HSS before welding was tempered martensite. After welding, the original microstructure was transformed to granular bainite in the CGHAZ, and to ferrite and cementite in the FGHAZ. For the tempering zone, some temper martensite decomposed to ferrite. The performed micro-hardness tests revealed that an obvious "soft layer" occurred in HAZ, and the HAZ size increased as the heat input increased. However, under the same level of heat input, the HAZ size decreased as the plate thickness increased. Subsequent coupon tensile tests found that all joints eventually failed within the HAZ with reduced tensile strength when compared with the base material. Similar to the size of the HAZ, the reduction of tensile strength increased as the welding heat input increased but decreased as the thickness of the plate increased.

Effects of Vacuum Heat Treatment and Salt bath Heat Treatment Conditions on Mechanical Properties of High Speed tool Steel (금속도 공구강의 기계적 성질에 미치는 진공열처리와 염욕열처리 조건의 영향)

  • Kim, Je-Don;Kim, Kyung-Sik
    • Journal of the Korean Society for Heat Treatment
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    • v.26 no.1
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    • pp.7-13
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    • 2013
  • Vacuum heat treatment(indirect heating method) has long exposure time at high temperature and low quenching rate. Contrarily salt bath heat treatment (direct heating method) has short exposure time at high temperature and fast cooling rate. With these different features of processes, mechanical properties such as hardness, tensile strength and impact strength of products show very different results. In this study, Salt bath heat treated products showed higher tensile strength and impact strength than vacuum heat treated products but hardness was not much different. These lower mechanical properties of vacuum heat treated products are due to differences in heat process and secondary hardening with high temperature tempering process. Consequently, It indicates that salt bath heat treatment is better way than vacuum heat treatment for product to have high mechanical properties.

Effects of Added Cr Element on the Tensile Strength and Electrical Conductivity of Cu-Fe Based Alloys (Cu-Fe계 합금의 강도 및 전기전도도에 미치는 Cr 원소첨가의 영향)

  • Kim, Dae-Hyun;Lee, Kwang-Hak
    • Korean Journal of Materials Research
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    • v.20 no.2
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    • pp.60-64
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    • 2010
  • This study looked at high performance copper-based alloys as LED lead frame materials with higher electrical-conductivity and the maintenance of superior tensile strength. This study investigated the effects on the tensile strength, electrical conductivity, thermal softening, size and distribution of the precipitation phases when Cr was added in Cu-Fe alloy in order to satisfy characteristics for LED Lead Frame material. Strips of the alloys were produced by casting and then properly treated to achieve a thickness of 0.25 mm by hot-rolling, scalping, and cold-rolling; mechanical properties such as tensile strength, hardness and electrical-conductivity were determined and compared. To determine precipitates in alloy that affect hardness and electrical-conductivity, electron microscope testing was also performed. Cr showed the effect of precipitation hardened with a $Cr_3Si$ precipitation phase. As a result of this experiment, appropriate aging temperature and time have been determined and we have developed a copper-based alloy with high tensile strength and electrical-conductivity. This alloy has the possibility for use as a substitution material for the LED Lead Frame of Cu alloy.

Influence of Heat Treatment on the Mechanical Properties in Various Weld Zone of the Structural Alloy Steel (구조용(構造用) 합금강(合金鋼) 용접(熔接) 각부위(各部位)의 열처리(熱處理)에 따른 기계적(機械的) 성질(性質) 변화(變化)에 관(関)한 실험적(實驗的) 연구(硏究))

  • Sim, Sang Woo;Lee, Seung Kyu;Min, Young Bong
    • Journal of Biosystems Engineering
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    • v.10 no.1
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    • pp.76-82
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    • 1985
  • To investigate the influence of annealing heat treatment on the mechanical properties at the various weld zone, an experimental study was performed for the structural alloy steel. The results obtained from the experimental works are as follows: 1. Hardness and tensile strength showed the highest value at the heat affected zone, which was 5mm apart from bond zone. With increasing of annealing temperature, hardness and tensile strength were decreased at every weld zone, and bound in heat affected zone was increased. 2. Impact strength was the highest at the filler metal, and increased with increment of annealing temperature at filler metal and base metal. However, both at bond and heat affected zones, impact strength was increased from $700^{\circ}C$ of annealing temperature, and was decreased again over $900^{\circ}C$. 3. Mutual relationship between the mechanical properties at filler and base metals showed a similar linearty to that the common structural steel did. However, it varied unsteadly both at bond and heat affected zones. 4. It may be concluded that proper annealing temperature is $700^{\circ}C$ from the viewpoint of hardness, tensile and impact strength.

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