局部定温加熱法による溶接割れ防止
スポンサーリンク
概要
- 論文の詳細を見る
Under the condition that the base metal to be welded is easily distorted, cracking seldom occurs. As to welding crack in high tensile steel plates, a lot of researchers have studied and presented the results of their studies, in which not a few researchers have done the restraint cracking test, such as U-type or slant Y-type. In this research, a restraint cracking test was done as follows, first of all, special butt welding of high tensile steel plates (Fig. 2) was made by manual arc welding process with coated electrode, NOW process or submerged arc welding process, secondly the profile of butt groove, which seemed to be most suitable, was chosen for each process, and thirdly for heating, "A Process for Local Heating at Constant Maximum Temperature with Gas Flames" published before was used. In these tests, the following investigations were made, such as prevention of welding crack at welded parts of high tensile steel and the relation between welding cracks and preheating or post heating. According to the results of experiments, the authors recognized the following facts : 1. In case of butt welding of high tensile steel plates, Wel-Ten 80C, a crack rarely occurs. But if the butt welding is made in central part of Fig. 2,crackings are likely to occur. 2. In these tests, welding was done after preheating by the above mentioned process. There are instances where olny preheating at 120℃ could prevent cracking at the welded part. But when the temperature of preheating was 120℃ and the interlayer temperature was kept at 200℃, in any method of welding, cracking was fully prevented. 3. After welding by the various processes, post heating at 700℃ was done by this heating method. By this post heating, the welded part with single-layer was softened and therefore cracking was prevented. But a small crack in crater was recognized in case of submerged arc welding process. Besides in case of multi-layer welding, if the interlayer temperature was kept at 200℃ and post heating was done only after deposition of final weld, there was no danger of cracking at all.
- 社団法人溶接学会の論文
- 1971-11-25
著者
関連論文
- ボロン添加SUS 304鋼の溶接高温割れ感受性評価
- 遠隔操作による溶接監視用視覚装置の検討
- ノズル部の多層溶接方法
- 局部定温加熱法による溶接割れ防止
- ガス局部定温加熱法による高張力鋼溶接部の後熱
- 230 NOW法による軟鋼片面自動溶接部に及ぼす送給ガスの影響
- 88 ガス局部定温加熱法による後熱について
- (46) 細隙片面自動アーク溶接法について(第 1 報)
- 高校工業科における溶接技能教育
- 229 各種被包ガスによる溶接特性について : ステンレス鋼に対するNOW溶接法の適用に関する研究(第一報)
- 細隙片面アーク溶接法の開発および建築鉄骨への応用(第 1 報) : フラックス・バッキングを用いる溶接法について
- 87 NOW法による鋼材溶接変質部および収縮
- Theories, Proposals and Their Applications on Steel Fusion Welding : Text of the lecture conducted at Nevada University
- 第 II 委員会出席報告 : Arc Welding(国際溶接学会特集 : 1969 年京都大会を終えて)
- A Process for Local Heating at Constant Maximum Temperature with Gas Flames
- Progress of Steel Welding in Japan
- 鋼材融接における脱酸および溶接鋼の衝撃値に及ぼすその影響
- Deoxidation in Steel Fusion Welding and It s Effect on Impact Value of Weld Steel
- CO_2-0_2 Arc Welding Process with Insertion of Coated Rods' : NOW Process for short
- Examples of the Hardness Distribution of Welded Parts Obtained by Various Welding Processes with Various Kinds of Steel (〔大同工業大学〕創立10周年記念号)