CN115247105A - 一种微晶玻璃的研磨粉清洗剂及清洗工艺 - Google Patents
一种微晶玻璃的研磨粉清洗剂及清洗工艺 Download PDFInfo
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Abstract
本发明公开了一种微晶玻璃的研磨粉清洗剂,其特征在于,以全部组分为100质量份计,由以下质量份的原料制成:碳酸氢钠5‑10份,三聚磷酸钠6‑12份,氨基三乙酸钠6‑10份,乙二胺四乙酸二钠5‑10份,PT‑11聚合植物酯5‑10份,TPP有机胺酯5‑10份,丙二醇嵌段聚醚3‑6份,余量为水。利用本发明所述的微晶玻璃的研磨粉清洗剂以清洗工艺对玻璃表面进行处理,能够高效的对微晶玻璃表面的磨粉进行清洗,同时不对玻璃造成腐蚀,十分适合应用于3C穿戴产品外观处理领域。
Description
技术领域
本发明属于玻璃清洗领域,具体公开了一种微晶玻璃的研磨粉清洗剂及清洗工艺。
背景技术
微晶玻璃,又称微晶玉石,是一种新型的光学玻璃材料,具有玻璃和陶瓷的双重特性,普通玻璃内部的原子排列是没有规则性的,因此强度不够易碎,但微晶玻璃像陶瓷一样由晶体组成,强度和硬度可大大满足现在3C穿戴产品的要求。
但由于微晶玻璃内部存在金属氧化物的晶核和特殊的玻璃加工工艺,玻璃在强酸和强碱性的环境下,会与酸或者是碱发生化学腐蚀,在宏观现象中,呈现玻璃变色的情况。
微晶玻璃在加工过程中需要使用氧化硅,氧化铝的磨粉对表面进行研磨抛光处理,经过研磨后玻璃表面有残留磨粉需要进行清洗,常规的清洗剂使用的都是强碱性的,或者是使用强酸性的清洗剂对玻璃进行浸泡处理,但使用常规的清洗剂对微晶玻璃进行处理,玻璃就会出现腐蚀变色的情况。因此生产过程中迫切需要开发一种适用微晶玻璃加工清洗的清洗剂,将磨粉清洗干净的同时,保证玻璃不会出现腐蚀现象。
发明内容
针对上述情况,本发明公开了一种微晶玻璃的研磨粉清洗剂及清洗工艺。本发明利PT-11聚合植物酯和TPP有机胺酯是无泡表面活性剂,适用酸碱性的使用环境,湿润和去污效果强,同时丙二醇嵌段聚醚,具有优良的增溶,去污,润湿,消泡,抗静电的能力,且对钙镁离子具有优良的分散能力,可满足清洗剂在硬水中的使用条件,达到将磨粉清洗干净的同时,保证玻璃不会出现腐蚀现象。
本发明的技术方案如下:
一种微晶玻璃的研磨粉清洗剂,以全部组分为100质量份计,由以下质量份的原料制成:
进一步地,一种微晶玻璃的研磨粉清洗剂,以全部组分为100质量份计,由以下质量份的原料制成:
进一步地,一种微晶玻璃的研磨粉清洗剂,以全部组分为100质量份计,由以下质量份的原料制成:
PT-11聚合植物酯和TPP有机胺酯是无泡表面活性剂,适用酸碱性的使用环境,湿润和去污效果强,可以满足使用平板清洗机对玻璃进行清洗。
丙二醇嵌段聚醚,具有优良的增溶,去污,润湿,消泡,抗静电的能力,且对钙镁离子具有优良的分散能力,可满足清洗剂在硬水中的使用条件。
使用所述微晶玻璃的研磨粉清洗剂的清洗工艺,包括以下步骤:
(1)配制清洗剂并搅拌均匀,稀释液10%的浓度使用;
(2)温度控制在15-25℃,平板机的速度控制在2m/min;
(3)对微晶玻璃使用氧化硅,氧化铝等磨粉平磨后,以单次清洗100pcs微晶玻璃,对清洗后的玻璃进行外观全检,检测表面的研磨粉残留和玻璃腐蚀变色情况。
本发明
使用所述清洗剂或所述的清洗工艺在3C穿戴产品外观处理中的应用。
从上述技术方案可以得出,本发明具有如下有益效果:
1.环保型好,不会对人体和环境造成损害;
2.能够高效的对微晶玻璃表面的磨粉进行清洗,同时不对玻璃造成腐蚀;
3.操作简单。
具体实施方式
下面对本发明实施例中的技术方案进行清楚、完整地描述,显然,所描述的实施例仅是本发明一部分实施例,而不是全部的实施例。基于本发明中的实施例,本领域普通技术人员在没有做出创造性劳动前提下所获得的所有其它实施例,都属于本发明保护的范围。
本发明实施例中使用的试剂或仪器未注明生产厂商者,均为可以通过市购获得的常规试剂产品。
实施例1
一种微晶玻璃的研磨粉清洗剂,以全部组分为100质量份计,由以下质量份的原料制成:
实施例1碳酸氢钠6份,三聚磷酸钠6份,氨基三乙酸钠8份,乙二胺四乙酸二钠8份,PT-11聚合植物酯5份,TPP有机胺酯5份,丙二醇嵌段聚醚3份,余量水。
(1)配制清洗剂并搅拌均匀,稀释液10%的浓度使用;
(2)温度控制在15-25℃,平板机的速度控制在2m/min;
(3)对微晶玻璃使用氧化硅,氧化铝等磨粉平磨后,以单次清洗100pcs微晶玻璃,对清洗后的玻璃进行外观全检,检测表面的研磨粉残留和玻璃腐蚀变色情况。
实施例2
一种微晶玻璃的研磨粉清洗剂,以全部组分为100质量份计,由以下质量份的原料制成:
碳酸氢钠8份,三聚磷酸钠6份,氨基三乙酸钠8份,乙二胺四乙酸二钠8 份,PT-11聚合植物酯5份,TPP有机胺酯5份,丙二醇嵌段聚醚3份,余量水。
(1)配制清洗剂并搅拌均匀,稀释液10%的浓度使用;
(2)温度控制在15-25℃,平板机的速度控制在2m/min;
(3)对微晶玻璃使用氧化硅,氧化铝等磨粉平磨后,以单次清洗100pcs微晶玻璃,对清洗后的玻璃进行外观全检,检测表面的研磨粉残留和玻璃腐蚀变色情况。
实施例3
一种微晶玻璃的研磨粉清洗剂,以全部组分为100质量份计,由以下质量份的原料制成:
碳酸氢钠6份,三聚磷酸钠8份,氨基三乙酸钠8份,乙二胺四乙酸二钠8 份,PT-11聚合植物酯5份,TPP有机胺酯5份,丙二醇嵌段聚醚3份,余量水。
(1)配制清洗剂并搅拌均匀,稀释液10%的浓度使用;
(2)温度控制在15-25℃,平板机的速度控制在2m/min;
(3)对微晶玻璃使用氧化硅,氧化铝等磨粉平磨后,以单次清洗100pcs微晶玻璃,对清洗后的玻璃进行外观全检,检测表面的研磨粉残留和玻璃腐蚀变色情况。
实施例4
一种微晶玻璃的研磨粉清洗剂,以全部组分为100质量份计,由以下质量份的原料制成:
碳酸氢钠10份,三聚磷酸钠6份,氨基三乙酸钠8份,乙二胺四乙酸二钠 8份,PT-11聚合植物酯5份,TPP有机胺酯5份,丙二醇嵌段聚醚3份,余量水。
(1)配制清洗剂并搅拌均匀,稀释液10%的浓度使用;
(2)温度控制在15-25℃,平板机的速度控制在2m/min;
(3)对微晶玻璃使用氧化硅,氧化铝等磨粉平磨后,以单次清洗100pcs微晶玻璃,对清洗后的玻璃进行外观全检,检测表面的研磨粉残留和玻璃腐蚀变色情况。
对比例1
一种微晶玻璃的研磨粉清洗剂,以全部组分为100质量份计,由以下质量份的原料制成:
碳酸氢钠6份,三聚磷酸钠6份,氨基三乙酸钠8份,乙二胺四乙酸二钠8 份,PT-11聚合植物酯5份,TPP有机胺酯5份,丙二醇嵌段聚醚0份,余量水。
(1)配制清洗剂并搅拌均匀,稀释液10%的浓度使用;
(2)温度控制在15-25℃,平板机的速度控制在2m/min;
(3)对微晶玻璃使用氧化硅,氧化铝等磨粉平磨后,以单次清洗100pcs微晶玻璃,对清洗后的玻璃进行外观全检,检测表面的研磨粉残留和玻璃腐蚀变色情况。
对比例2
一种微晶玻璃的研磨粉清洗剂,以全部组分为100质量份计,由以下质量份的原料制成:
碳酸氢钠6份,三聚磷酸钠6份,氨基三乙酸钠8份,乙二胺四乙酸二钠8 份,PT-11聚合植物酯0份,TPP有机胺酯5份,丙二醇嵌段聚醚3份,余量水。
(1)配制清洗剂并搅拌均匀,稀释液10%的浓度使用;
(2)温度控制在15-25℃,平板机的速度控制在2m/min;
(3)对微晶玻璃使用氧化硅,氧化铝等磨粉平磨后,以单次清洗100pcs微晶玻璃,对清洗后的玻璃进行外观全检,检测表面的研磨粉残留和玻璃腐蚀变色情况。
对比例3
一种微晶玻璃的研磨粉清洗剂,以全部组分为100质量份计,由以下质量份的原料制成:
碳酸氢钠0份,三聚磷酸钠6份,氨基三乙酸钠8份,乙二胺四乙酸二钠8 份,PT-11聚合植物酯5份,TPP有机胺酯5份,丙二醇嵌段聚醚3份,余量水。
(1)配制清洗剂并搅拌均匀,稀释液10%的浓度使用;
(2)温度控制在15-25℃,平板机的速度控制在2m/min;
(3)对微晶玻璃使用氧化硅,氧化铝等磨粉平磨后,以单次清洗100pcs微晶玻璃,对清洗后的玻璃进行外观全检,检测表面的研磨粉残留和玻璃腐蚀变色情况。
对比例4
一种微晶玻璃的研磨粉清洗剂,以全部组分为100质量份计,由以下质量份的原料制成:
氢氧化钠6份,三聚磷酸钠6份,氨基三乙酸钠8份,乙二胺四乙酸二钠8 份,PT-11聚合植物酯5份,TPP有机胺酯5份,丙二醇嵌段聚醚3份,余量水。
(1)配制清洗剂并搅拌均匀,稀释液10%的浓度使用;
(2)温度控制在15-25℃,平板机的速度控制在2m/min;
(3)对微晶玻璃使用氧化硅,氧化铝等磨粉平磨后,以单次清洗100pcs微晶玻璃,对清洗后的玻璃进行外观全检,检测表面的研磨粉残留和玻璃腐蚀变色情况。
表1为实施例1-4与对比例1-4清洗结果统计表。
表1
根据以上实施例1-4可以看出,本发明所述的一种微晶玻璃的研磨粉清洗剂能够高效的对微晶玻璃表面的磨粉进行清洗,同时不对玻璃造成腐蚀变色,十分适合应用于在3C穿戴产品外观处理领域。
结合实施例1与对比例1可知,由于丙二醇嵌段聚醚具有优良的增溶,去污,润湿,消泡,抗静电的能力,且对钙镁离子具有优良的分散能力,可满足清洗剂在硬水中的使用条件,因此对比例1中未添加丙二醇嵌段聚醚时,清洗效果明显下降。
结合实施例1与对比例2可知,由于PT-11聚合植物酯和TPP有机胺酯是无泡表面活性剂,适用酸碱性的使用环境,湿润和去污效果强,可以满足使用平板清洗机对玻璃进行清洗,因此对比例2中只添加了TPP有机胺酯,清洗效果明显下降。
结合实施例1与对比例4可知,将碳酸氢钠换成氢氧化钠,氢氧化钠碱性强于碳酸氢钠,因此虽然能够高效的对微晶玻璃表面的磨粉进行清洗,但是会对玻璃进行腐蚀变色。
以上所述实施例仅表达了本发明的有限几种优选实施方式,其描述较为具体和详细,但并不能因此而理解为对本发明专利范围的限制。应当指出的是,对于本领域的普通技术人员来说,在不脱离本发明构思的前提下,还可以做出若干变形和改进,这些都属于本发明的保护范围。
Claims (5)
4.使用权利要求1-3任一项所述的微晶玻璃的研磨粉清洗剂的清洗工艺,其特征在于,包括以下步骤:
(1)配制清洗剂并搅拌均匀,稀释液10%的浓度使用;
(2)温度控制在15-25℃,平板机的速度控制在2m/min;
(3)对微晶玻璃使用氧化硅,氧化铝等磨粉平磨后,以单次清洗100pcs微晶玻璃,对清洗后的玻璃进行外观全检,检测表面的研磨粉残留和玻璃腐蚀变色情况。
5.如权利要求1-3任一项所述的清洗剂或权利要求4所述的清洗工艺在3C穿戴产品外观处理中的应用。
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