IN020常用材料干燥及制程参数标准一览表

常用干燥剂参数（Common desiccant parameters）Common Drying AgentsMolecular weight, water absorption capacity, drying rate (Drying, speed), acid base (Acidity, and, alkaline) regeneration mode (Regenerative, way)1 calcium sulfate, CaSO4, small, fast, neutral, dehydration at 163 degrees (dehydration temperature) regeneration2 barium oxide BaO - slow alkaline, not renewable3 P2O5 acid cannot regenerate quickly P2O54 calcium chloride (molten) CaCl2 fast, containing alkaline impurities, 200 degrees dry regeneration5 magnesium perchlorate Mg (ClO4) 2 fast neutral drying regeneration (251 DEG C decomposition)6, three hydrate magnesium perchlorate Mg (ClO4) 2 - 3H2O - fast neutral drying regeneration (251 DEG C decomposition)7 potassium hydroxide (molten) KOH large faster, alkaline can not be recycled8 activated alumina Al2O3, fast neutral, drying at (110~300)C regeneration9 concentrated sulfuric acid H2SO4, fast acid evaporation, concentration and regeneration10, silica gel, SiO2 large, fast acidity, 120 degrees drying, regeneration11 sodium hydroxide (molten) NaOH large faster, alkaline can not be recycled12 calcium oxide CaO - slow alkaline can not be recycledCuSO4 - 13 copper sulfate acid under 150 DEG C for drying regeneration14 Magnesium Sulfate MgSO4 fast, some neutral acid under 200 DEG C for drying regeneration15, sodium sulfate Na2SO4 large slow neutral drying regeneration16 potassium carbonate K2CO3, slow alkaline, 100 degrees drying, regeneration17 metal sodium Na - not renewableThe crystallization of aluminosilicate from 18 zeolite is faster and more acidic, and the temperature varies with the modelNote: be careful when using perchlorate, carbon, sulfur, phosphorus and all organic matter can not be in contact with, or there will be a violent explosion, causing danger.Drying conditionsSerial number name, material not applicable, material remark 1, alkali lime, BaO, CaO, neutral and alkaline gas,Amines, alcohols, ethers, aldehydes, ketones, acids, especially in dry gases, react with water to form Ba (OH) 2 and Ca (OH) 22 CaSO4 is generally applicable - often with Na2SO4 as a pre drying agent3 NaOH, KOH ammonia, amines, ethers and hydrocarbons (dryer), hydrazine, alkalis, aldehydes, ketones, acids easy deliquescence, so generally used for pre drying4 K2CO3 amines, alcohols, acetone, alkaloids, general esters, nitriles, hydrazine derivatives, halogen acids, phenols and other acidic substances easily deliquescence5 CaCl2 of alkanes, alkenes, hydrocarbons, ethers, esters, halogenated hydrocarbons, nitriles, acetone, aldehydes, nitro compounds, neutral gas, hydrogen chloride, HCl, CO2Alcohols, ammonia, NH3, amines, acids, acids, aldehydes, ketones and estersA cheap desiccant that produces solvates, complexes, or reactions with many nitrogen-containing and oxygenated compounds; usually contains basic impurities such as CaO6 P2O5 most neutral and acidic gases, acetylene, carbon disulfide, hydrocarbons, various halogenated hydrocarbons, acid solutions, acids and anhydrides, nitrilesAlkaline substances, alcohols, ketones, ethers, readily occurring polymeric substances, hydrogen chloride, HCl, hydrogen fluoride, HF, ammonia, NH3The use of the dry gas must be with carrier or packing (asbestos wool, glass wool, pumice etc.) mixed with other desiccant; general pre drying; this product is deliquescent, the water reacts with phosphoric acid, metaphosphoric acid7 concentrated H2SO4, most neutral and acidic gases (dryers, cylinders), various saturated hydrocarbons, halogenated hydrocarbons, aromatic hydrocarbonsUnsaturated organic compounds, alcohols, ketones, phenols, alkaline substances, H2S hydrogen sulfide, hydrogen iodide HI, ammonia NH3 is not suitable for heating drying and vacuum drying.8 metals, Na ethers, saturated hydrocarbons, tertiary amines, aromatic hydrocarbons, such as chlorine (explosion risk), alcohols, primary and secondary amines and other substances easily and sodium metalGenerally use other desiccant pre drying; with water generated NaOH and H29 Mg (ClO4) 2 ammonia containing gases (dryers), oxidizable organic matter, mostly for analytical purposes, suitable for a variety of analytical work, soluble in a variety of solvents; improperly handled, there will be explosion hazards10, Na2SO4 and MgSO4 are generally applicable, especially for esters, ketones, and some sensitive substance solutions - a cheap drying agent; Na2SO4 is often used as a pre drying agent11 the silica gel is placed in the dryer and heated by hydrogen fluoride. It can be reused after drying12 molecular sieve temperature below 100 degrees Celsius most of the flow of gas; organic solvents (dryers) unsaturated hydrocarbons are generally pre drying with other desiccant; especially suitable for low pressure drying13 CaH2 hydrocarbons, ethers, esters, alcohols and aldehydes of C4 and C4, compounds containing active carbonyl groupsThe effect is greater than that of LiAlH4, but the efficiency is close, and it is safer. It is one of the best dehydrating agents. Ca (OH) 2 and H2 are produced with water14 LiAlH4 hydrocarbons, aryl halides, ethers containing compounds such as acids, H, halogens, carbonyls, and nitro groupsBe careful when you use it. The excess can be slowly added to ethyl acetate to destroy it; to produce LiOH, Al (OH) 3 and H2 with waterA desiccant suitable for liquidsLiquid name is suitable for drying agent1 saturated hydrocarbons P2O5, CaCl2, H2SO4 (concentrated), NaOH, KOH, Na, Na2SO4, MgSO4, CaSO4, CaH2, LiAlH4, molecular sieves2 unsaturated hydrocarbons P2O5, CaCl2, NaOH, KOH, Na2SO4, MgSO4, CaSO4, CaH2, LiAlH43 halogenated hydrocarbons P2O5, CaCl2, H2SO4 (concentrated), Na2SO4, MgSO4, CaSO44 alcohols are BaO, CaO, K2CO3, Na2SO4, MgSO4,CaSO4, silicone5 phenolic Na2SO4, silica gel6 aldehydes, CaCl2, Na2SO4, MgSO4, CaSO4, silica gel7 ketones, K2CO3, Na2SO4, MgSO4, CaSO4, silica gel8 ethers such as BaO, CaO, NaOH, KOH, Na, CaCl2, CaH2, LiAlH4, Na2SO4, MgSO4, CaSO4, silica gel9 acids P2O5, Na2SO4, MgSO4, CaSO4, silica gel10 esters are K2CO3, CaCl2, Na2SO4, MgSO4, CaSO4, CaH2, silicagel11 amines, BaO, CaO, NaOH, KOH, K2CO3, Na2SO4, MgSO4, CaSO4, silica gel12 hydrazine class NaOH, KOH, Na2SO4, MgSO4, CaSO4, silica gel13 nitriles, P2O5, K2CO3, CaCl2, Na2SO4, MgSO4, CaSO4, silica gel14 nitro compounds, CaCl2, Na2SO4, MgSO4, CaSO4, silica gel15 carbon disulphide P2O5, CaCl2, Na2SO4, MgSO4, CaSO4, silica gel16 base classes NaOH, KOH, BaO, CaO, Na2SO4, MgSO4, CaSO4, silica gelDesiccant suitable for gasesThe name of the gas is suitable for drying agent1, H2, P2O5, CaCl2, H2SO4 (concentrated), Na2SO4, MgSO4, CaSO4, CaO, BaO, molecular sieves2, O2, P2O5, CaCl2, Na2SO4, MgSO4, CaSO4, CaO, BaO, molecular sieves3, N2, P2O5, CaCl2, H2SO4 (concentrated), Na2SO4, MgSO4, CaSO4, CaO, BaO, molecular sieves4, O3, P2O5, CaCl25, Cl2, CaCl2, H2SO4 (thick)6, CO, P2O5, CaCl2, H2SO4 (concentrated), Na2SO4, MgSO4, CaSO4, CaO, BaO, molecular sieves7, CO2, P2O5, CaCl2, H2SO4 (concentrated), Na2SO4, MgSO4, CaSO4, molecular sieves8, SO2, P2O5, CaCl2, Na2SO4, MgSO4, CaSO4, molecular sieves9, CH4, P2O5, CaCl2, H2SO4 (concentrated), Na2SO4, MgSO4, CaSO4, CaO, BaO, NaOH, KOH, Na, CaH2, LiAlH4, molecular sieves10, NH3, Mg (ClO4) 2, NaOH, KOH, CaO, BaO, Mg (ClO4) 2, Na2SO4, MgSO4, CaSO4, molecular sieves11, HCl, CaCl2, H2SO4 (thick)12 HBr CaBr213 HI CaI214 H2S CaCl215 C2H4 P2O516, C2H2, P2O5, NaOH。

什么是焊条烘箱？或是焊条烘箱的作用？或是焊条烘箱的原理是什么？谈到“焊条烘箱”首先要从“电焊条使用前为什么要进行烘干？”谈起。

一、电焊条使用前为什么要进行烘干？焊条在保管、储存期间，往往会因为吸潮而使工艺性能变坏，造成电弧不稳、飞溅增多，并容易产生气孔、裂纹等缺陷，因此焊条使用前必须进行烘干。

对于低氢型药皮的焊条，在使用前必须烘干，以降低焊条的含氢量，防止气孔、裂纹等缺陷的产生。

一般烘干温度为350℃，保温1小时。

经烘干后的焊条应放入50~100℃的保温筒中，随用随取。

非低氢型药皮的焊条，通常在使用前也要进行烘干，烘干温度为50-100℃，保温1小时。

烘干焊条时，不应将焊条突然放进高温炉内，或从高温炉中突然取出冷却，防止焊条因骤冷骤热而产生药皮开裂或脱落现象。

同时，烘焊条时，焊条不应成垛成捆地堆放，应辅放成簿层状，避免焊条烘干时受热不均，潮气不易排出。

关于焊条烘焙问题，在建筑钢结构焊接技术规程（JGJ81－2002）中有明确规定：1、焊条、熔嘴、焊剂和药芯焊丝在使用前，必须按产品使用说明书及有关工艺文件的规定进行烘干；2、低氢型焊条烘干温度应为350～380℃，保温时间应为1.5～2h，烘干后应缓冷放置于110～120℃的保温箱中存放、待用；使用时应放置于保温筒中；烘干后的低氢型焊条在大气中放置时间超过4h应重新烘干；焊条重复烘干次数不宜超过2次；受潮的焊条不应使用。

3、对于酸性焊条，在焊接规程中没有明确规定。

一般对于未受潮的酸性焊条可以不烘焙，但现场施工条件有限，焊条存放容易受潮，受潮的酸性焊条应进行烘干，烘干温度150℃左右，烘干时间1.5～2h。

4、含有纤维素型焊条（如J425）的烘干温度应控制在100～120℃左右，否则影响焊接质量。

其实焊条烘焙工艺是很有学问的。

“低氢型焊条烘干温度应为350～380℃，保温时间应为1.5～2h，烘干后应缓冷放置于110～120℃的保温箱中存放、待用；”什么时候350℃？什么时候380℃？什么时候2h？什么时候1.5h？升温多少时间达到要求温度？恒温多少时间？降温什么时候放到保温箱中存放？什么叫“受潮”？在大气中放置时间如何确定？下面是笔者研究烘箱焊条设备过程中总结的“常用焊条的烘干和保存温度列表”，提供大家借鉴，会大大帮助您在焊接应用和焊条应用方面起到错金作用。

文案编辑词条B 添加义项?文案，原指放书的桌子，后来指在桌子上写字的人。

现在指的是公司或企业中从事文字工作的职位，就是以文字来表现已经制定的创意策略。

文案它不同于设计师用画面或其他手段的表现手法，它是一个与广告创意先后相继的表现的过程、发展的过程、深化的过程，多存在于广告公司，企业宣传，新闻策划等。

基本信息中文名称文案外文名称Copy目录1发展历程2主要工作3分类构成4基本要求5工作范围6文案写法7实际应用折叠编辑本段发展历程汉字"文案"(wén àn)是指古代官衙中掌管档案、负责起草文书的幕友,亦指官署中的公文、书信等;在现代，文案的称呼主要用在商业领域，其意义与中国古代所说的文案是有区别的。

在中国古代，文案亦作" 文按"。

公文案卷。

《北堂书钞》卷六八引《汉杂事》:"先是公府掾多不视事，但以文案为务。

"《晋书·桓温传》:"机务不可停废，常行文按宜为限日。

" 唐戴叔伦《答崔载华》诗:"文案日成堆，愁眉拽不开。

"《资治通鉴·晋孝武帝太元十四年》:"诸曹皆得良吏以掌文按。

"《花月痕》第五一回:" 荷生觉得自己是替他掌文案。

"旧时衙门里草拟文牍、掌管档案的幕僚，其地位比一般属吏高。

《老残游记》第四回:"像你老这样抚台央出文案老爷来请进去谈谈，这面子有多大!"夏衍《秋瑾传》序幕:"将这阮财富带回衙门去，要文案给他补一份状子。

"文案音译文案英文:copywriter、copy、copywriting文案拼音:wén àn现代文案的概念:文案来源于广告行业，是"广告文案"的简称，由copy writer翻译而来。

多指以语辞进行广告信息内容表现的形式，有广义和狭义之分，广义的广告文案包括标题、正文、口号的撰写和对广告形象的选择搭配;狭义的广告文案包括标题、正文、口号的撰写。