• Title/Summary/Keyword: 필릿용접부

Search Result 45, Processing Time 0.025 seconds

Effects of Plate Thickness and Weld Size on the Strength of Fillet Welded Lap Joints (모재의 두께와 용접치수에 따른 필릿용접부의 강도)

  • Jo, Jae Byung;Jung, Kyoung Sup;Lee, Jeong Woo
    • Journal of Korean Society of Steel Construction
    • /
    • v.18 no.3
    • /
    • pp.331-337
    • /
    • 2006
  • Specimens with fillet-welded lap joints were fabricated from 20 mm, 60 mm, and 82 mm thick steel plates produced by Thermo Mechanical Control Process. The designed sizes of filet welds were betwen 6 mm and 16 m. The welds' axes were parallel with or perpendicular to the direction of loading or a combination of them. Specimens were axialy loaded in tension and the strength of fillet-welded joints were measured. Test results showed that the strengths of filet-welded joints are higher than the nominal strengths calculated for all the cases tested, and also approximately on the same level regardless of plate thickness and fillet weld size. Especially, the specimens with weld size les than that required by Korean design rules showed no visible defects on welds and also no str ength reduction.

Proposal of Estimation Equation for Nominal Strength of Longitudinal Fillet Welds with Different Types of Steel (강종에 따른 종방향 필릿용접부 공칭강도 계산식의 제안)

  • Jo, Jae-Byung;Lee, Hye-Youn
    • Journal of Korean Society of Steel Construction
    • /
    • v.24 no.5
    • /
    • pp.503-510
    • /
    • 2012
  • High performance, high strength steels were developed and used in steel structures recently. Since the newly developed high strength steels posses different toughness, weldability, yield strength ratio, etc. in compare with conventional structural steels, it is requred to investigate the applicability of the design strength of fillet weld specified in the existing design codes. The comparison of the design strengths of various codes from domestic and overseas shows quite a difference. Test results for fillet weld strengths were collected and statistically analysed. Each of yield strength, tensile strength of parent material and tensile strength of weld metal was selected as a main parameter for each estimation equation respectively. All the estimation equations yield almost same values for each type of steel regardless the type of main parameter selected. Considering the behaviour of fillet welded joints and for practical purposes, it is proposed that the equation with tensile strength of parent material is to be used in design codes. The comparison with the proposed nominal strengths of fillet welds shows that the existing design codes could lead to an uneconomical result for low strength steels and lie on an unsafe side for high strength steels.

A Study on the Characteristics of Fatigue Failure for Fillet Welded Joint (필릿 용접이음부의 피로파괴 특성에 관한 연구)

  • Kang, S.W.;Ha, W.I.;Shin, J.S.;Jang, T.W.;Jae, J.S.
    • Journal of the Society of Naval Architects of Korea
    • /
    • v.33 no.4
    • /
    • pp.133-141
    • /
    • 1996
  • The mode of fatigue failure is depended on the characteristics of the fatigue crack initiated and propagated from the weld toe and the weld root in the load-carrying fillet welded joints. The characteristics of fatigue crack are deeply affected by the geometry of fillet and the stress range. The purpose of this study is to investigate critical weld size and stress range in order to occur toe failure under pulsating tension loading in the load-carrying fillet welded cruciform joints.

  • PDF

Distribution of Welding Residual Stresses in T-joint Weld with Root Gap (루트부 갭이 있는 양면 필릿용접 이음부의 용접잔류응력 분포)

  • H.S. Bang;S.H. Kim;Y.P. Kim;C.W. Lee
    • Journal of the Society of Naval Architects of Korea
    • /
    • v.39 no.3
    • /
    • pp.81-88
    • /
    • 2002
  • The root joint in the welding structures are apt to failure by the stress concentration which is occurred by the external force. Therefore, in the safety and reliability of structure, the complete penetration joint welding which are obtained by the groove welding with edge preparation is generally required. Nevertheless, fillet T-joint welding without edge preparation is often carried out in the fields to reduce working time and consumption of welding electrode, however, this process is likely to produce inadequate joint penetration such as root gap. In this paper, the focus of research is to investigate distribution of welding residual stresses in the plate(or flange) and web of T-joint weld, and especially in the near of root gap notch that is due to incomplete joint penetration. For the analysis, we have chosen model of T-joint weld in the cases of single and multi-pass welding with submerged arc welding and analyzed model by using finite element programs considering the heat conduction and thermal elasto-plastic theory.

A Study on Characteristics of Fatigue Failure and Fatigue Life in Full Penetrated Cruciform Fillet Weld Zone (완전 용입 십자형 필릿용접부에서 피로파괴특성과 피로수명에 관한 연구)

  • Lee, Yong-Bok
    • Journal of the Korean Institute of Gas
    • /
    • v.16 no.4
    • /
    • pp.16-22
    • /
    • 2012
  • The use of welding process has been increased for manufacture of machine, bridges, ships, gas facilities and so on together with development of welding technique. Accordingly, it has been needed to develop the welding methods considering higher productivity and safety design for manufacture of their welding structures. In this study, it was studied basically on characteristics of fatigue strength and fatigue life in full penetrated cruciform fillet weld zone in relation to material thickness, welding passes, loading direction and notch radius of toe zone. Most of fatigue failure occurred in toe zone of cruciform fillet weld joint. Fatigue strength and fatigue life are under the influence of stress concentration due to notch radius and flank angle of toe zone. The metal of toe zone annealed and diffused by multi-layer welding and acicular ferrite structure formed by the result improved fatigue strength and fatigue life.

Development of Process for High Deposited Metal Melting Efficiency in TIG Welding Using Filler Wire (필러와이어를 쓰는 TIG용접에서 용착금속의 높은 용융효율을 얻기 위한 공정개발)

  • Shin, Hee-Seop;Ham, Hyo-Sik;Seo, Ji-Seuk;Cho, Sang-Myoung
    • Proceedings of the KWS Conference
    • /
    • 2010.05a
    • /
    • pp.41-41
    • /
    • 2010
  • 에어컨용 냉매 압축기, 냉장고용 냉매압축기 및 자동차 샷시 부품들은 주로 겹치기 필릿용접을 GMAW 으로 실시하고 있다. 그러나 용접 시 스패터 발생으로 인한 추가공수가 요구되며 작업환경 또한 열악한 실정이다. 따라서 저가의 고생산이면서 용접비드의 외관이 미려하고 스패터, 소음 그리고 Fume 이 발생되지 않는 청정한 TIG 용접이 있지만, 용접속도가 수십 cpm 이하로 제한되어 생산성이 낮다는 기술적 모순을 가지고 있다. TIG 용접에서 생산성을 증가시키기 위해 모재와 와이어를 고속 용융 시키려면 전류를 높여 입열량을 증가시켜야 하지만, 증가된 전류로 인하여 상승된 아크력이 험핑비드와 언더컷이 발생되는 물리적 모순을 가진다. 또한 필러와이어를 사용한 기존의 TIG 용접에서 필러 와이어는 주로 원형 단면 와이어를 사용하게 되는데 와이어의 직경이 증가함에 따라 비표면적은 감소하여 용융효율이 낮아지므로 $\Phi$1.2 이하의 필러와이어를 송급하여 용접하였다. 그러나 요구되는 용착량이 큰 경우 필러 와이어를 고속으로 송급하게 되는데 이 경우 필러 와이어 용융이 곤란하거나 송급상의 문제가 자주 생겨 용접속도를 고속으로 하기 곤란하였다. 따라서 필러와이어를 사용한 TIG 용접에서 용착금속의 용융효율을 높게 함으로서 전류를 크게 증가시키지 않으면서도 용접속도를 높일 수 있는 용접 공정개발이 필요한 실정이다. 본 연구에서는 비표면적을 증가시켜 용착금속의 높은 용융효율을 얻을 수 있도록 개발된 와이어와 기존의 $\Phi$3.2 일반와이어 및 를 이용하여 BOP TIG 용접에 비교 실험하였으며, 개발된 와이어와 기존의 $\Phi$1.2 필러와이어를 이용하여 필릿용접부에 적용 실험하여 비교하였다. 그 결과 개발된 와이어의 경우 적절한 비드를 형성하였으나 3.2 일반와이어의 경우 과도한 볼록비드와 불용착부의 문제가 발생하였고, 필릿용접 비교실험에서는 각각 200cpm과 50cpm에서 적절한 비드가 형성되어 더 높은 용착금속 용융효율을 얻을 수 있었다.

  • PDF