机械制造与自动化
機械製造與自動化
궤계제조여자동화
JIANGSU MACHINE BUILDING & AUTOMATION
2014年
6期
66-68,85
,共4页
FCAW%水下湿法焊接%电弧稳定性%响应曲面法
FCAW%水下濕法銲接%電弧穩定性%響應麯麵法
FCAW%수하습법한접%전호은정성%향응곡면법
FCAW%underwater wet welding%arc stability%response surface method
水下焊接技术是海洋油气设施建造及核电站维修的关键技术之一。水下湿法电弧稳定性是水下湿法焊接的关键问题,提高水下焊接电弧稳定性对促进水下焊接技术具有重要意义。搭建了用高压舱模拟水下环境进行FCAW水下湿法焊接的试验平台,以焊接电流、电压和水深三个焊接工艺参数为自变量,设计了三因素五水平的响应曲面( RSM)试验方案,建立了电弧稳定性与焊接参数之间的响应曲面模型。对单一焊接参数以及参数间的交互作用对电弧稳定性的影响、水下湿法焊接电压电流的匹配规律和焊接工艺范围进行了研究。
水下銲接技術是海洋油氣設施建造及覈電站維脩的關鍵技術之一。水下濕法電弧穩定性是水下濕法銲接的關鍵問題,提高水下銲接電弧穩定性對促進水下銲接技術具有重要意義。搭建瞭用高壓艙模擬水下環境進行FCAW水下濕法銲接的試驗平檯,以銲接電流、電壓和水深三箇銲接工藝參數為自變量,設計瞭三因素五水平的響應麯麵( RSM)試驗方案,建立瞭電弧穩定性與銲接參數之間的響應麯麵模型。對單一銲接參數以及參數間的交互作用對電弧穩定性的影響、水下濕法銲接電壓電流的匹配規律和銲接工藝範圍進行瞭研究。
수하한접기술시해양유기설시건조급핵전참유수적관건기술지일。수하습법전호은정성시수하습법한접적관건문제,제고수하한접전호은정성대촉진수하한접기술구유중요의의。탑건료용고압창모의수하배경진행FCAW수하습법한접적시험평태,이한접전류、전압화수심삼개한접공예삼수위자변량,설계료삼인소오수평적향응곡면( RSM)시험방안,건립료전호은정성여한접삼수지간적향응곡면모형。대단일한접삼수이급삼수간적교호작용대전호은정성적영향、수하습법한접전압전류적필배규률화한접공예범위진행료연구。
Underwater welding is one of the key technologies in the construction and maintenance of subsea pipelines, oil plat-forms and nuclear power plant. Arc stability is the key problems in the underwater wet welding. If this problem is solved,a contribu-tion is made to the underwater wet welding. A hyperbaric chamber underwater welding system is built to conduct underwater wet welding experiment in simulated water depth. The welding parameters ( welding current,volfage and depth) are taken as the weld-ing indendent variables to plan the testing method of the response surface with three factors and five levels.The prediction models between welding parameters and welding indexes are established to analyse the relationships between them. Otherwise, matching law of welding current and voltage in different water depths is obtained. The range of welding parameters in underwater wet welding is also studied.
