CN106083001A - 一种纳米晶蓝色陶瓷刚玉磨料及其制备方法 - Google Patents

一种纳米晶蓝色陶瓷刚玉磨料及其制备方法 Download PDF

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CN106083001A
CN106083001A CN201610446675.8A CN201610446675A CN106083001A CN 106083001 A CN106083001 A CN 106083001A CN 201610446675 A CN201610446675 A CN 201610446675A CN 106083001 A CN106083001 A CN 106083001A
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李志宏
王津松
朱玉梅
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Tianjin University
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Abstract

本发明公开了一种纳米晶蓝色陶瓷刚玉磨料及其制备方法,采用溶胶‑凝胶法制备含铝前驱体,引入添加剂,再经造粒、筛分、锻烧等工艺获得陶瓷刚玉磨料。本发明以Al2(SO4)3·18H2O或Al(NO3)3·9H2O为原料,外加添加剂占原料的质量百分比为0.15%~0.8%,添加剂的原料组成及其占添加剂的质量百分比含量为Co(NO3)2·6H2O5%~25%,(NH4)3AlF6 5%~20%,C16H36O4Ti 0%~65%,Si(OC2H5)4 0%~40%,Mg(NO3)2·6H2O0%~50%,Ca(NO3)2·4H2O 0~20%。本发明改变了刚玉磨料的显色特征,与电熔法相比降低了400℃~800℃的生产温度,优化了刚玉磨料内部显微结构,单颗粒抗压强度最高可达58.6N,冲击韧性比现有的陶瓷刚玉磨料提高15%~25%,制成的陶瓷刚玉砂轮磨削效率比普通刚玉砂轮提高55%以上,使用寿命也得到相应延长。

Description

一种纳米晶蓝色陶瓷刚玉磨料及其制备方法
技术领域
本发明是关于磨削加工磨料的,尤其涉及一种纳米晶蓝色陶瓷刚玉磨料及其制备方法。
背景技术
人造刚玉磨料自从19世纪末首次研制成功以来,取得了极快的发展,由于其具有良好的机械性能和高温磨削稳定性,以及加工对象的广泛性,获得了广泛的应用。人造刚玉依据其杂质离子含量和晶型分为:棕刚玉、黑刚玉、白刚玉、铬刚玉、锆刚玉、镨钕刚玉、矾土烧结刚玉、单晶刚玉等品种。此类刚玉磨料由于没有从根本上改变电熔融的制备方法,不仅能耗高,而且晶粒尺寸大,磨削性能较差,因此在加工领域的应用受到了诸多限制。
陶瓷刚玉磨料诞生于20世纪80年代,是一种新型刚玉磨料,主要通过溶胶-凝胶法来制备含铝前驱体,再经过合适的煅烧工艺处理得到。这一制备手段与传统的电熔融法相比有很多显著的优点,其制备的刚玉磨料内部晶粒尺寸可以达到纳米级别,磨粒内部微观形貌可控,使其在强度、韧性、自锐性、磨削效率、加工精度及使用寿命等方面与传统刚玉磨料相比都有了显著提升,主要应用于高档材料的磨削加工领域,如加工宇航材料、飞机发动机和汽轮机部件的高温合金。
由于现代制造业水平的提高,对加工产品的质量和效率要求越来越高,从而对于磨料的要求也随之越高,使刚玉磨料在向着能满足高速、重负荷、强力磨削和精密磨削的方向发展。但由于纯氧化铝的烧结扩散活化能较高,低温下难以烧结,高温下又易引起晶粒异常长大,影响其显微结构,进而损害磨料强度、韧性和自锐性等一系列的机械性能。因此,如何降低生产过程中的能源消耗,优化磨粒内部显微结构尤其是有效细化内部晶粒,提高磨料磨削性能及使用寿命以适应国内及国际市场的需要,一直以来都是是刚玉磨料研究开发领域的热点。
发明内容
本发明的目的是,通过一种新的添加剂体系降低产品烧成温度和优化显微结构,提供一种能源消耗小,性能优异的纳米晶蓝色陶瓷刚玉磨料及其制备方法。
本发明通过如下技术方案予以实现:
一种纳米晶蓝色陶瓷刚玉磨料,以Al2(SO4)3·18H2O或Al(NO3)3·9H2O为原料,外加添加剂占原料的质量百分比含量为0.15%~0.8%;
所述添加剂的原料组成及其质量百分比含量为:Co(NO3)2·6H2O 5%~25%,(NH4)3AlF65%~20%,C16H36O4Ti 0%~65%,Si(OC2H5)4 0%~40%,Mg(NO3)2·6H2O 0%~50%,Ca(NO3)2·4H2O 0~20%。
上述纳米晶蓝色陶瓷刚玉磨料的制备方法,具有如下步骤:
(1)采用Al2(SO4)3·18H2O或Al(NO3)3·9H2O为原料,溶解于水配成Al3+浓度为0.3~0.6mol/L的溶液;
(2)向步骤(1)的溶液中加入浓度为1mol/L氨水,在常温下进行磁力搅拌,控制pH为9.0~9.8,使其持续反应直至完全凝胶化,然后经抽滤,反复洗涤得到Al(OH)3凝胶前驱体;
(3)按照质量百分比含量为:5%~25%的Co(NO3)2·6H2O,5%~20%的(NH4)3AlF6,0%~65%的C16H36O4Ti,0%~40%的Si(OC2H5)4,0%~50%的Mg(NO3)2·6H2O,0~20%的Ca(NO3)2·4H2O配置添加剂,再将添加剂加入到步骤(2)所得凝胶前驱体中,以水为介质,采用刚玉磨球,湿法球磨使其充分混匀后,再于80℃干燥,得到干凝胶,然后经过造粒、筛分得到前驱体颗粒;
(4)将步骤(3)所得前驱体颗粒于1200℃~1300℃煅烧0.5~2h,或者将前驱体颗粒先加热到1300℃~1400℃,再迅速降到1050℃~1150℃,并保温1~3h,再进一步筛分、分级,得到不同粒度的纳米晶蓝色陶瓷刚玉磨料。
所述步骤(3)的造粒筛分后的前驱体颗粒为尖片型、等积型或长柱型,最终得到形貌可控的磨料颗粒。
所述步骤(4)的蓝色陶瓷刚玉磨料显微结构均匀致密,磨料颗粒内部晶粒呈等轴状或片状,晶粒平均尺寸在80nm~300nm之间。
本发明的有益效果如下:
拓宽了陶瓷刚玉磨料添加剂体系的选择范围,改变了刚玉磨料的显色特征;降低了陶瓷刚玉磨料的烧成温度,与电熔法相比降低了400℃~800℃的生产温度,大幅减少了生产过程中的能源消耗;刚玉磨料内部显微结构均匀致密,细化了晶粒,磨粒内部晶粒尺寸为80nm~300nm;改善了刚玉磨料的强度、韧性和自锐性等机械性能,单颗粒抗压强度最高可达58.6N,冲击韧性比现有的陶瓷刚玉磨料提高15%~25%,制成的陶瓷刚玉砂轮磨削效率比普通刚玉砂轮提高55%以上,使用寿命也得到相应延长。
具体实施方式
下面结合具体实施例进一步说明本发明的技术方案。
本发明原料及添加剂均采用市售分析纯原料,各实施例以制备5g的刚玉磨料为基准称量Al2(SO4)3·18H2O或Al(NO3)3·9H2O原料,外加添加剂占原料的质量百分比含量的范围为0.15%~0.8%。
实施例1
取32.67gAl2(SO4)3·18H2O溶解于水,配成Al3+浓度为0.4mol/L的溶液;
向上述溶液中加入浓度为1mol/L的氨水,不断搅拌,控制pH为9.2,使其持续反应直至完全凝胶化,然后经抽滤、反复洗涤得到Al(OH)3凝胶前驱体;
将0.2wt%的外加添加剂加入Al(OH)3凝胶前驱体中,以水为介质,采用刚玉磨球,湿法球磨使其充分混匀;所述添加剂的组成及其质量百分比含量为:8%Co(NO3)2·6H2O,59%C16H36O4Ti,23%Si(OC2H5)4,10%(NH4)3AlF6
将球磨后的湿凝胶在80℃干燥得到干凝胶,然后经过造粒、筛分得到前驱体颗粒;
将前驱体颗粒在1200℃煅烧1.5h,再经筛分、分级得到不同粒度的陶瓷刚玉磨料;
所得陶瓷刚玉磨料为浅蓝色,磨料颗粒内部晶粒呈等轴状,晶粒平均尺寸为180nm。
实施例2
取36.76gAl(NO3)3·9H2O溶解于水,配成Al3+浓度为0.5mol/L溶液;
向上述溶液中加入浓度为1mol/L的氨水,不断搅拌,控制pH为9.8,使其持续反应直至完全凝胶化,然后经抽滤、反复洗涤得到Al(OH)3凝胶前驱体;
将0.8wt%的外加添加剂加入Al(OH)3凝胶前驱体中,以水为介质,采用刚玉磨球,湿法球磨使其充分混匀;所述添加剂的组成及其质量百分比含量为:19%Co(NO3)2·6H2O,46%C16H36O4Ti,24%Si(OC2H5)4,11%(NH4)3AlF6
将球磨后的湿凝胶在80℃干燥得到干凝胶,然后经过造粒、筛分得到前驱体颗粒;
将前驱体颗粒在1300℃煅烧1h,再经筛分、分级得到不同粒度的陶瓷刚玉磨料;
所得陶瓷刚玉磨料为深蓝色,磨料颗粒内部晶粒呈等轴状,晶粒平均尺寸为280nm。
实施例3
取32.67gAl2(SO4)3·18H2O溶解于水,配成Al3+浓度为0.6mol/L溶液;
向上述溶液中加入浓度为1mol/L的氨水,不断搅拌,控制pH为9.2,使其持续反应直至完全凝胶化,然后经抽滤、反复洗涤得到Al(OH)3凝胶前驱体;
将0.54wt%的外加添加剂加入Al(OH)3凝胶前驱体中,以水为介质,采用刚玉磨球,湿法球磨使其充分混匀;所述添加剂的组成及其质量百分比含量为:18%Co(NO3)2·6H2O,50%C16H36O4Ti,24%Mg(NO3)2·6H2O,8%(NH4)3AlF6 0~30%;
将球磨后的湿凝胶在80℃干燥得到干凝胶,然后经过造粒、筛分得到前驱体颗粒;
将前驱体颗粒在1300℃煅烧2h,再经筛分、分级得到不同粒度的陶瓷刚玉磨料;
所得陶瓷刚玉磨料为天蓝色,磨料颗粒内部晶粒呈片状,晶粒平均尺寸为240nm。
实施例4
取36.76gAl(NO3)3·9H2O溶解于水,配成Al3+浓度为0.5mol/L溶液;
向上述溶液中加入浓度为1mol/L的氨水,不断搅拌,控制pH为9.4,使其持续反应直至完全凝胶化,然后经抽滤、反复洗涤得到Al(OH)3凝胶前驱体;
将0.37wt%的外加添加剂加入Al(OH)3凝胶前驱体中,以水为介质,采用刚玉磨球,湿法球磨使其充分混匀;所述添加剂的组成及其质量百分比含量为:16%Co(NO3)2·6H2O,40%Mg(NO3)2·6H2O,30%Si(OC2H5)4,6%(NH4)3AlF6,8%Ca(NO3)2·4H2O;
将球磨后的湿凝胶在80℃干燥得到干凝胶,然后经过造粒、筛分得到前驱体颗粒;
将前驱体颗粒加热到1350℃,然后迅速降到1150℃保温1.5h,再经筛分、分级得到不同粒度的陶瓷刚玉磨料;
所得陶瓷刚玉磨料颗粒为天蓝色,磨料颗粒内部晶粒呈等轴状,晶粒平均尺寸为80nm。
以上对本发明做了实例性的描述,应该说明的是,本发明并不局限于上述实施例,很多细节的变化是可能的,并不因此违背本发明的精神。

Claims (3)

1.一种纳米晶蓝色陶瓷刚玉磨料,以Al2(SO4)3·18H2O或Al(NO3)3·9H2O为原料,外加添加剂占原料的质量百分比含量为0.15%~0.8%;
所述添加剂的原料组成及其质量百分比含量为:Co(NO3)2·6H2O 5%~25%,(NH4)3AlF6 5%~20%,C16H36O4Ti 0%~65%,Si(OC2H5)4 0%~40%,Mg(NO3)2·6H2O 0%~50%,Ca(NO3)2·4H2O 0~20%。
上述纳米晶蓝色陶瓷刚玉磨料的制备方法,具有如下步骤:
(1)采用Al2(SO4)3·18H2O或Al(NO3)3·9H2O为原料,溶解于水配成Al3+浓度为0.3~0.6mol/L的溶液;
(2)向步骤(1)的溶液中加入浓度为1mol/L氨水,在常温下进行磁力搅拌,控制pH为9~9.8,使其持续反应直至完全凝胶化,然后经抽滤,反复洗涤得到Al(OH)3凝胶前驱体;
(3)按照质量百分比含量为:5%~25%的Co(NO3)2·6H2O,5%~20%的(NH4)3AlF6,0%~65%的C16H36O4Ti,0%~40%的Si(OC2H5)4,0%~50%的Mg(NO3)2·6H2O,0~20%的Ca(NO3)2·4H2O配置添加剂,再将添加剂加入到步骤(2)所得凝胶前驱体中,以水为介质,采用刚玉磨球,湿法球磨使其充分混匀后,再于80℃干燥,得到干凝胶,然后经过造粒、筛分得到前驱体颗粒;
(4)将步骤(3)所得前驱体颗粒于1200℃~1300℃煅烧0.5~2h,或者将前驱体颗粒先加热到1300℃~1400℃,再迅速降到1050℃~1150℃,并保温1~3h,再进一步筛分、分级,得到不同粒度的纳米晶蓝色陶瓷刚玉磨料。
2.根据权利要求1所述的一种纳米晶蓝色陶瓷刚玉磨料,其特征在于,所述步骤(3)的造粒筛分后的前驱体颗粒为尖片型、等积型或长柱型,最终得到形貌可控的磨料颗粒。
3.根据权利要求1所述的一种纳米晶蓝色陶瓷刚玉磨料,其特征在于,所述步骤(4)的蓝色陶瓷刚玉磨料显微结构均匀致密,磨料颗粒内部晶粒呈等轴状或片状,晶粒平均尺寸在80nm~300nm之间。
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