1. Matsaloli na yau da kullum a cikin putty foda
Saurin bushewa: Wannan ya samo asali ne saboda yawan ƙwayar calcium foda da aka ƙara (mai girma, adadin lemun tsami na calcium foda da aka yi amfani da shi a cikin tsari na putty za a iya rage shi yadda ya kamata) yana da alaƙa da yawan ajiyar ruwa na fiber, kuma yana da ma'ana. alaka da bushewar bango.
Kwasfa da mirgine. Wannan yana da alaƙa da ƙimar riƙewar ruwa, wanda ke da sauƙin faruwa lokacin da danko na cellulose ya yi ƙasa ko adadin ƙari yana ƙarami.
De-powdering na ciki bango putty powder: Wannan yana da alaka da adadin ash calcium foda da aka kara (yawan ash calcium foda a cikin tsari na putty yayi kadan ko kuma tsarkin ash calcium foda ya yi ƙasa sosai, da adadin ash. Calcium foda a cikin foda foda ya kamata a ƙara shi da kyau) A lokaci guda kuma, yana da alaƙa da adadin da ingancin cellulose, wanda ke nunawa a cikin adadin ruwa na samfurin. Adadin ajiyar ruwa yana da ƙasa, kuma lokacin ash calcium foda (calcium oxide a cikin ash calcium foda bai cika juyowa zuwa calcium hydroxide) bai isa ba. ,sabunta.
Kumburi: Wannan yana da alaka da busasshen zafi da zaftarewar bango, haka nan yana da alaka da ginin.
Mahimman bayanai sun bayyana. Wannan yana da alaƙa da cellulose, wanda ke da ƙarancin samar da fim. A lokaci guda, ƙazanta a cikin cellulose suna amsa dan kadan tare da ash calcium. Idan abin ya kasance mai tsanani, foda mai sanyawa zai bayyana a cikin yanayin ragowar wake na wake. Ba za a iya sanya shi a bango ba, kuma ba shi da ƙarfin haɗin kai a lokaci guda. Bugu da ƙari, wannan yanayin yana faruwa tare da samfurori irin su carboxymethyl gauraye da cellulose.
Bayyanar ramuka da ramuka: Wannan a fili yana da alaƙa da tashin hankalin saman ruwa na maganin ruwa na hydroxypropyl methylcellulose. Tashin tebur na ruwa na maganin ruwa na hydroxyethyl ba a bayyane yake ba. Zai yi kyau a yi maganin gamawa.
Bayan putty ya bushe, yana da sauƙi a fashe kuma ya juya rawaya: wannan yana da alaƙa da ƙari na babban adadin ash ash foda. Idan adadin ash ash foda ya yi yawa, taurin foda zai karu bayan bushewa. Tauri kawai ba tare da sassauci ba zai iya fashe cikin sauƙi, musamman Yana da sauƙin fashe lokacin da aka yi masa ƙarfi na waje. Hakanan yana da alaƙa da babban abun ciki na calcium oxide a cikin ash calcium foda.
2. Me yasa foda ya zama bakin ciki bayan ƙara ruwa?
Ana amfani da Cellulose azaman mai kauri da mai riƙe da ruwa a cikin putty. Saboda thixotropy na cellulose kanta, ƙari na cellulose a cikin putty foda kuma yana haifar da thixotropy bayan ƙara ruwa zuwa putty. Wannan thixotropy yana haifar da lalacewa ta hanyar lalata tsarin haɗin kai na abubuwan da ke cikin foda. Wannan tsarin yana tasowa a lokacin hutawa kuma yana rushewa a ƙarƙashin damuwa. Wato danko yana raguwa a karkashin motsawa, kuma danko yana farfadowa lokacin da yake tsaye.
3. Menene dalilin da ya sa putty yayi nauyi sosai a cikin tsari na scraping?
A wannan yanayin, danko na cellulose gabaɗaya da ake amfani da shi ya yi yawa. Wasu masana'antun suna amfani da cellulose 200,000 don yin putty. Kayan da aka samar ta wannan hanya yana da babban danko, don haka yana jin nauyi lokacin da ake gogewa. Adadin da aka ba da shawarar putty don ganuwar ciki shine 3-5 kg, kuma danko shine 80,000-100,000.
4. Me yasa cellulose danko iri ɗaya ke jin daban a lokacin hunturu da bazara?
Saboda thermal gelation na samfurin, danko na putty da turmi za su ragu a hankali tare da karuwar zafin jiki. Lokacin da zafin jiki ya zarce zafin gel na samfurin, samfurin zai haɗe daga ruwa kuma ya rasa danko. Yanayin zafin jiki a lokacin rani gabaɗaya yana sama da digiri 30, wanda ya bambanta da yanayin zafi a lokacin hunturu, don haka danko yana ƙasa. Ana bada shawara don zaɓar samfurin tare da danko mafi girma lokacin da ake amfani da samfurin a lokacin rani, ko don ƙara yawan adadin cellulose, da kuma zaɓar samfurin da zafin jiki mafi girma. Gwada kada ku yi amfani da methyl cellulose a lokacin rani. Zazzaɓin gel ɗin yana tsakanin Kimanin digiri 55, zafin jiki ya ɗan fi girma, kuma danko zai yi tasiri sosai.
Lokacin aikawa: Afrilu-13-2023