失效分析与预防
失效分析與預防
실효분석여예방
FAILURE ANALYSIS AND PREVENTION
2014年
3期
183-188
,共6页
麦小波%范正标%钱乙余%苏林
麥小波%範正標%錢乙餘%囌林
맥소파%범정표%전을여%소림
封条式%铝合金%热交换器%氮气保护钎焊%失效模式
封條式%鋁閤金%熱交換器%氮氣保護釬銲%失效模式
봉조식%려합금%열교환기%담기보호천한%실효모식
plate-and-bar%aluminum alloy heat exchanger%brazing process%nitrogen atmosphere brazing%brazing failure mode
封条式铝合金热交换器用途广泛、可靠性高,采用氮气保护钎焊具有生产效率高、温度均匀性好、成本低等特点。本研究介绍了封条式铝合金热交换器的结构特点、材料和用途,并介绍了适用于氮气保护钎焊批量生产的钎焊设备、流程、方法和参数。钎焊是产品生产的关键工序,钎焊失效往往导致产品报废,合格率的下降,进而导致成本的上升。本研究把在生产实践中遇到的主要失效模式根据失效件的特点分为顶板变形、零件移位或变形、温度超高或过低、钎缝泄漏等4大类,分别对这各类失效模式产生原因进行了分析,并针对失效模式的根本原因,从钎焊夹具设计、过程管理、钎焊工艺、零件清洁等方面提出了预防与改进措施,在生产实践中取得了良好效果。
封條式鋁閤金熱交換器用途廣汎、可靠性高,採用氮氣保護釬銲具有生產效率高、溫度均勻性好、成本低等特點。本研究介紹瞭封條式鋁閤金熱交換器的結構特點、材料和用途,併介紹瞭適用于氮氣保護釬銲批量生產的釬銲設備、流程、方法和參數。釬銲是產品生產的關鍵工序,釬銲失效往往導緻產品報廢,閤格率的下降,進而導緻成本的上升。本研究把在生產實踐中遇到的主要失效模式根據失效件的特點分為頂闆變形、零件移位或變形、溫度超高或過低、釬縫洩漏等4大類,分彆對這各類失效模式產生原因進行瞭分析,併針對失效模式的根本原因,從釬銲夾具設計、過程管理、釬銲工藝、零件清潔等方麵提齣瞭預防與改進措施,在生產實踐中取得瞭良好效果。
봉조식려합금열교환기용도엄범、가고성고,채용담기보호천한구유생산효솔고、온도균균성호、성본저등특점。본연구개소료봉조식려합금열교환기적결구특점、재료화용도,병개소료괄용우담기보호천한비량생산적천한설비、류정、방법화삼수。천한시산품생산적관건공서,천한실효왕왕도치산품보폐,합격솔적하강,진이도치성본적상승。본연구파재생산실천중우도적주요실효모식근거실효건적특점분위정판변형、령건이위혹변형、온도초고혹과저、천봉설루등4대류,분별대저각류실효모식산생원인진행료분석,병침대실효모식적근본원인,종천한협구설계、과정관리、천한공예、령건청길등방면제출료예방여개진조시,재생산실천중취득료량호효과。
Plate-and-bar aluminum alloy heat exchangers have been widely used because of high reliability. Brazing in Nitrogen atmosphere has high efficiency, good temperature uniformity and low cost. This paper introduced the structure, material and application of plate-and-bar aluminum alloy heat exchangers. This paper also introduced brazing furnace, process, method and parameters which are used in mass production. Brazing is the most important process in manufacture. Brazing failure will result in product failure, and low percent of pass will bring about high cost. So in this paper, the brazing failure modes of plate-and-bar aluminum alloy heat exchangers are defined by four types in manufacture practice:deformation of top plate, parts translocation or deformation, higher or lower brazing temperature, and leakage in brazing gap. The reasons for the four types of failure modes were analyzed. Measures were put forward on brazing fixture design, process management, brazing process and part cleanness, which turned out to be effective.
