CN107474915A - 一种金属管拉伸减少摩擦划痕的润滑油及其制备方法 - Google Patents

一种金属管拉伸减少摩擦划痕的润滑油及其制备方法 Download PDF

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CN107474915A
CN107474915A CN201710634470.7A CN201710634470A CN107474915A CN 107474915 A CN107474915 A CN 107474915A CN 201710634470 A CN201710634470 A CN 201710634470A CN 107474915 A CN107474915 A CN 107474915A
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王诗斌
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Chaohu Pengyuan Metal Pipe Co Ltd
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Abstract

一种金属管拉伸减少摩擦划痕的润滑油及其制备方法,包括以下重量份的原料组成:大豆150‑200份、改性胺与聚酰胺混合体10‑15份、滑石粉20‑25份;环氧树脂60‑65份、间本二胺10‑13份、苯酚5‑6份、烧碱5‑6份、氢氧化铵5‑6份、二乙烯三胺6‑9份、磷酸三甲酚酯8‑11份、30‑40份环氧有机硅、40‑50份环烷基基础油、抗磨损剂2‑5份、防腐防锈剂5‑10份、清洁因子2‑5份、抗氧化剂5‑15份、金属减活化剂1‑3份和粘度调节剂8‑12份。在控制基础油成本的同时能够保证较好的粘度指数和高抗磨性能;通过助剂的配合添加,有效在低温或高温环境下,减少金属管之间的摩擦,降低设备的维护成本,提供洁净的磨损防护模式,同时在此基础上,利用大豆和环氧树脂添加。

Description

一种金属管拉伸减少摩擦划痕的润滑油及其制备方法
技术领域:
本发明涉及化工领域,具体涉及一种金属管拉伸减少摩擦划痕的润滑油及其制备方法。
背景技术:
润滑油是涂在机器轴承表面的油状液体,按其来源分动物油、植物油、石油润滑油和合成润滑油四大类,其具有减少摩擦,避免发热、防止机器磨损等作用。
发明内容:
本发明所要解决的技术问题在于克服现有技术的缺陷,提供一种金属管拉伸减少摩擦划痕的润滑油及其制备方法。
本发明所要解决的技术问题采用以下技术方案来实现。
一种金属管拉伸减少摩擦划痕的润滑油,其特征在于:包括以下重量份的原料组成:
大豆150-200份、改性胺与聚酰胺混合体10-15份、滑石粉20-25份;环氧树脂60-65份、间本二胺10-13份、苯酚5-6份、烧碱5-6份、氢氧化铵5-6份、二乙烯三胺6-9份、磷酸三甲酚酯8-11份、30-40份环氧有机硅、40-50份环烷基基础油、抗磨损剂2-5份、防腐防锈剂5-10份、清洁因子2-5份、抗氧化剂5-15份、金属减活化剂1-3份和粘度调节剂8-12份。
所述的抗磨损剂为硫化脂。
所述的防腐防锈剂为金属酚盐。
所述的抗氧化剂为2,3-二叔丁基对甲酚。
所述的金属减活化剂为硫化物。
所述的粘度调节剂为烷基苯乙烯。
一种金属管拉伸减少摩擦划痕的润滑油制备方法制备方法,包括以下步骤:
步骤1:取大豆,分离大豆皮,待用,从大豆中分离蛋白8%-20%、尿素15%-17%、多聚磷酸钠1%-10%,将尿素分散在水中,混合制成尿素溶液,
步骤2:将滑石粉与环氧树脂混合,放入蒸馏瓶内,同时将改性胺与聚酰胺混合体与环烷基基础油混合,待完全混合后,加入环氧有机硅,加入蒸馏内混合,得到基础油;
步骤3:将基础油、防腐防锈剂及抗氧化剂,混合,进行高温低压蒸馏,温度460-480℃、压强0.03-0.06MPa,快速分离轻质油和重质油;
步骤4:将重质油,加入蛋白,在常温下搅拌1-2小时,再加入多聚磷酸钠,继续搅拌2-3小时,然后进行沉淀分离,分离后,取上1/3层油,
步骤5:将大豆皮磨碎,装入提取器中,加入重质油和尿素溶液,在,固液比例为12:1,温度为70-80℃的条件下提取6小时,然后抽滤,对滤液进行真空浓缩,回收溶剂;
步骤6:将步骤4和步骤5混合,采用分级萃取,萃取压力为28-35MPa,温度42-48℃,萃取时间为1.5-2小时,然后进行二级分离,第一级分离压力为8-10MPa,温度为53-57℃,第二季为3-5MPa,温度为30-40℃;
步骤7:依次加入间本二胺、苯酚、二乙烯三胺、磷酸三甲酚酯,加热搅拌,加热温度为190℃,时长10分钟、冷却至70℃,加入烧碱、氢氧化铵;
步骤8:将步骤6、步骤7与抗磨损剂、清洁因子、金属减活化剂、粘度调节剂按原料比例混合,过滤,即可。
本发明的有益效果是:在控制基础油成本的同时能够保证较好的粘度指数和高抗磨性能;通过助剂的配合添加,有效在低温或高温环境下,减少金属管之间的摩擦,降低设备的维护成本,提供洁净的磨损防护模式,同时在此基础上,利用大豆和环氧树脂添加;该润滑油的制备方法,步骤简单环保,易于实施。
具体实施方式:
为了使本发明实现的技术手段、创作特征、达成目的与功效易于明白了解,下面结合具体实施例,进一步阐述本发明。
具体实施例1:一种金属管拉伸减少摩擦划痕的润滑油,包括以下重量份的原料组成:
大豆150份、改性胺与聚酰胺混合体10份、滑石粉20份;环氧树脂60份、间本二胺10份、苯酚5份、烧碱5份、氢氧化铵5份、二乙烯三胺6份、磷酸三甲酚酯8份、30份环氧有机硅、40份环烷基基础油、抗磨损剂2份、防腐防锈剂5份、清洁因子2份、抗氧化剂5份、金属减活化剂1份和粘度调节剂8份。
具体实施例2:一种金属管拉伸减少摩擦划痕的润滑油,包括以下重量份的原料组成:
大豆200份、改性胺与聚酰胺混合体15份、滑石粉25份;环氧树脂65份、间本二胺13份、苯酚6份、烧碱6份、氢氧化铵6份、二乙烯三胺9份、磷酸三甲酚酯11份、40份环氧有机硅、50份环烷基基础油、抗磨损剂5份、防腐防锈剂10份、清洁因子5份、抗氧化剂15份、金属减活化剂3份和粘度调节剂12份。
所述的抗磨损剂为硫化脂。
所述的防腐防锈剂为金属酚盐。
所述的抗氧化剂为2,3-二叔丁基对甲酚。
所述的金属减活化剂为硫化物。
所述的粘度调节剂为烷基苯乙烯。
一种金属管拉伸减少摩擦划痕的润滑油制备方法制备方法,包括以下步骤:
步骤1:取大豆,分离大豆皮,待用,从大豆中分离蛋白8%-20%、尿素15%-17%、多聚磷酸钠1%-10%,将尿素分散在水中,混合制成尿素溶液,
步骤2:将滑石粉与环氧树脂混合,放入蒸馏瓶内,同时将改性胺与聚酰胺混合体与环烷基基础油混合,待完全混合后,加入环氧有机硅,加入蒸馏内混合,得到基础油;
步骤3:将基础油、防腐防锈剂及抗氧化剂,混合,进行高温低压蒸馏,温度460-480℃、压强0.03-0.06MPa,快速分离轻质油和重质油;
步骤4:将重质油,加入蛋白,在常温下搅拌1-2小时,再加入多聚磷酸钠,继续搅拌2-3小时,然后进行沉淀分离,分离后,取上1/3层油,
步骤5:将大豆皮磨碎,装入提取器中,加入重质油和尿素溶液,在,固液比例为12:1,温度为70-80℃的条件下提取6小时,然后抽滤,对滤液进行真空浓缩,回收溶剂;
步骤6:将步骤4和步骤5混合,采用分级萃取,萃取压力为28-35MPa,温度42-48℃,萃取时间为1.5-2小时,然后进行二级分离,第一级分离压力为8-10MPa,温度为53-57℃,第二季为3-5MPa,温度为30-40℃;
步骤7:依次加入间本二胺、苯酚、二乙烯三胺、磷酸三甲酚酯,加热搅拌,加热温度为190℃,时长10分钟、冷却至70℃,加入烧碱、氢氧化铵;
步骤8:将步骤6、步骤7与抗磨损剂、清洁因子、金属减活化剂、粘度调节剂按原料比例混合,过滤,即可。
经试验,对比现有的润滑油的情况:
通过对比可以看出,本法制备的润滑剂粘度指数和高抗磨性能;通过助剂的配合添加,有效在低温或高温环境下,减少金属管之间的摩擦。
以上显示和描述了本发明的基本原理、主要特征和本发明的优点。本行业的技术人员应该了解,本发明不受上述实施例的限制,上述实施例和说明书中描述的只是说明本发明的原理,在不脱离本发明精神和范围的前提下,本发明还会有各种变化和改进,这些变化和改进都落入要求保护的本发明范围内。本发明要求保护范围由所附的权利要求书及其等效物界定。

Claims (7)

1.一种金属管拉伸减少摩擦划痕的润滑油,其特征在于:包括以下重量份的原料组成:
大豆150-200份、改性胺与聚酰胺混合体10-15份、滑石粉20-25份;环氧树脂60-65份、间本二胺10-13份、苯酚5-6份、烧碱5-6份、氢氧化铵5-6份、二乙烯三胺6-9份、磷酸三甲酚酯8-11份、30-40份环氧有机硅、40-50份环烷基基础油、抗磨损剂2-5份、防腐防锈剂5-10份、清洁因子2-5份、抗氧化剂5-15份、金属减活化剂1-3份和粘度调节剂8-12份。
2.根据权利要求中所述的一种金属管拉伸减少摩擦划痕的润滑油,其特征在于:所述的抗磨损剂为硫化脂。
3.根据权利要求中所述的一种金属管拉伸减少摩擦划痕的润滑油,其特征在于:所述的防腐防锈剂为金属酚盐。
4.根据权利要求中所述的一种金属管拉伸减少摩擦划痕的润滑油,其特征在于:所述的抗氧化剂为2,3-二叔丁基对甲酚。
5.根据权利要求中所述的一种金属管拉伸减少摩擦划痕的润滑油,其特征在于:所述的金属减活化剂为硫化物。
6.根据权利要求中所述的一种金属管拉伸减少摩擦划痕的润滑油,其特征在于:所述的粘度调节剂为烷基苯乙烯。
7.一种金属管拉伸减少摩擦划痕的润滑油制备方法制备方法,其特征在于:包括以下步骤:
步骤1:取大豆,分离大豆皮,待用,从大豆中分离蛋白8%-20%、尿素15%-17%、多聚磷酸钠1%-10%,将尿素分散在水中,混合制成尿素溶液,
步骤2:将滑石粉与环氧树脂混合,放入蒸馏瓶内,同时将改性胺与聚酰胺混合体与环烷基基础油混合,待完全混合后,加入环氧有机硅,加入蒸馏内混合,得到基础油;
步骤3:将基础油、防腐防锈剂及抗氧化剂,混合,进行高温低压蒸馏,温度460-480℃、压强0.03-0.06MPa,快速分离轻质油和重质油;
步骤4:将重质油,加入蛋白,在常温下搅拌1-2小时,再加入多聚磷酸钠,继续搅拌2-3小时,然后进行沉淀分离,分离后,取上1/3层油,
步骤5:将大豆皮磨碎,装入提取器中,加入重质油和尿素溶液,在,固液比例为12:1,温度为70-80℃的条件下提取6小时,然后抽滤,对滤液进行真空浓缩,回收溶剂;
步骤6:将步骤4和步骤5混合,采用分级萃取,萃取压力为28-35MPa,温度42-48℃,萃取时间为1.5-2小时,然后进行二级分离,第一级分离压力为8-10MPa,温度为53-57℃,第二季为3-5MPa,温度为30-40℃;
步骤7:依次加入间本二胺、苯酚、二乙烯三胺、磷酸三甲酚酯,加热搅拌,加热温度为190℃,时长10分钟、冷却至70℃,加入烧碱、氢氧化铵;
步骤8:将步骤6、步骤7与抗磨损剂、清洁因子、金属减活化剂、粘度调节剂按原料比例混合,过滤,即可。
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CN102585988A (zh) * 2011-12-30 2012-07-18 大连三达奥克化学股份有限公司 无缝钢管拉拔润滑乳化油及生产方法
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CN104073206A (zh) * 2014-06-23 2014-10-01 安徽神舟飞船胶业有限公司 改性环氧树脂粘胶剂配方及其制备工艺
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CN102585988A (zh) * 2011-12-30 2012-07-18 大连三达奥克化学股份有限公司 无缝钢管拉拔润滑乳化油及生产方法
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