A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
The invention discloses a binder for a 3D printing ceramic material and a preparation method of the binder. The binder comprises the following materials: 40-60 g of gypsum, 5-15 g of a preservative, 10-20 g of chalk, 10-15 g of a modifier, 20-30 g of oil-based varnish, 10-15 g of a curing agent and 60-80 g of ethanol. The adopted raw materials do not contain organic components, so that the prepared binder is high in binding speed and good in binding force, high-temperature sintering is not needed, product production steps and energy consumption are reduced, the production cost is reduced, the binder is more suitable for 3D printing forming of ceramic materials, and the binder is simple in manufacturing method, wide in application and suitable for industrial production. And ceramic powder materials can be quickly and efficiently bonded to obtain ceramic products, popularization and application of ceramic material 3D printing forming in life are greatly promoted, and ceramic material 3D printing forming has wide market prospects.
本发明公开了一种3D打印陶瓷材料用粘结剂及其制备方法,包括以下材料:生石膏40‑60g,防腐剂5‑15g,白垩10‑20g,改性剂10‑15g,油基清漆20‑30g,固化剂10‑15g和乙醇60‑80g。通过采用的原料中不含有机成分,使得所制备的粘结剂粘结速度快,粘结力好,不需要高温烧结,缩减了产品生产步骤和能源消耗,降低了生产成本,更加适用于陶瓷材料的3D打印成型,而且粘结剂制造方法简单,应用广泛,并且能快速高效的对陶瓷粉末材料进行粘结得到陶瓷产品,将极大的促进陶瓷材料3D打印成型在生活中的推广应用,陶瓷材料3D打印成型具有广阔的市场前景。
The invention discloses a binder for a 3D printing ceramic material and a preparation method of the binder. The binder comprises the following materials: 40-60 g of gypsum, 5-15 g of a preservative, 10-20 g of chalk, 10-15 g of a modifier, 20-30 g of oil-based varnish, 10-15 g of a curing agent and 60-80 g of ethanol. The adopted raw materials do not contain organic components, so that the prepared binder is high in binding speed and good in binding force, high-temperature sintering is not needed, product production steps and energy consumption are reduced, the production cost is reduced, the binder is more suitable for 3D printing forming of ceramic materials, and the binder is simple in manufacturing method, wide in application and suitable for industrial production. And ceramic powder materials can be quickly and efficiently bonded to obtain ceramic products, popularization and application of ceramic material 3D printing forming in life are greatly promoted, and ceramic material 3D printing forming has wide market prospects.
本发明公开了一种3D打印陶瓷材料用粘结剂及其制备方法,包括以下材料:生石膏40‑60g,防腐剂5‑15g,白垩10‑20g,改性剂10‑15g,油基清漆20‑30g,固化剂10‑15g和乙醇60‑80g。通过采用的原料中不含有机成分,使得所制备的粘结剂粘结速度快,粘结力好,不需要高温烧结,缩减了产品生产步骤和能源消耗,降低了生产成本,更加适用于陶瓷材料的3D打印成型,而且粘结剂制造方法简单,应用广泛,并且能快速高效的对陶瓷粉末材料进行粘结得到陶瓷产品,将极大的促进陶瓷材料3D打印成型在生活中的推广应用,陶瓷材料3D打印成型具有广阔的市场前景。
Binder for 3D printing ceramic material and preparation method thereof
一种3D打印陶瓷材料用粘结剂及其制备方法
2022-07-05
Patent
Electronic Resource
Chinese
IPC:
C04B
Kalk
,
LIME
Preparation method of binder jet printing silicon carbide ceramic material
| European Patent Office | 2022
Sulfate-based composite binder for 3D printing ceramic material
| European Patent Office | 2020
| European Patent Office | 2023
Ceramic binder gradient hard alloy cutter material and preparation method thereof
| European Patent Office | 2024
Binder jet printing silicon carbide-aluminum composite material and preparation method thereof
| European Patent Office | 2023