Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Production process of FLL inorganic thermal insulation paste
The invention relates to the field of paste production, and discloses an FLL inorganic thermal insulation paste production process which comprises the following steps: S1, parameter setting: setting various parameters in the production process, and inputting batch data into a setting system for calculation; s2, weighing the components; s201, weighing the liquid component and water, filtering for 4-6 times, and standing for later use; s202, powder components are weighed; s203, pre-weighing a small auxiliary agent; s3, pre-stirring: pouring the components in S2 into a dispersion machine in batches, and stirring for 3-5 times at the interval of 10-16 minutes after the stirring is finished. The viscosity of the paste can be well controlled only by controlling the proper rotating speed for stirring, the viscosity of the mixed paste is the best when the rotating speed is 65r/min, the viscosity of the paste is the best when the paste is used, heat preservation can be well carried out when the paste is used, and the internal performance of the paste can be more stable when 6 parts of small auxiliaries are added. Therefore, the performance of the device can be better exerted during use.
本申请涉及膏料生产领域,公开了一种FLL无机保温膏料生产工艺,包括以下步骤,S1、参数设定,设定生产过程中的各项参数,将批量数据输入设定系统内进行计算;S2、组分称量;S201、称取液体组分和水,进行4~6次过滤后放置备用;S202、称取粉体组分;S203、小助剂预称量;S3、预搅拌,将S2中的组分分批次倒入分散机内,搅拌3~5次,每次搅拌结束后间隔10~16分钟。通过控制适当的转速进行搅拌才能够将膏体的黏稠度控制得较好,当转速为65r/mi n时混料出的膏体黏稠度最好,在使用时膏体的黏稠性最好能够很好地在使用时进行保温,且添加6份小助剂时能够使膏体内部性能更加的稳定,从而在进行使用时更加的发挥其性能。
Production process of FLL inorganic thermal insulation paste
The invention relates to the field of paste production, and discloses an FLL inorganic thermal insulation paste production process which comprises the following steps: S1, parameter setting: setting various parameters in the production process, and inputting batch data into a setting system for calculation; s2, weighing the components; s201, weighing the liquid component and water, filtering for 4-6 times, and standing for later use; s202, powder components are weighed; s203, pre-weighing a small auxiliary agent; s3, pre-stirring: pouring the components in S2 into a dispersion machine in batches, and stirring for 3-5 times at the interval of 10-16 minutes after the stirring is finished. The viscosity of the paste can be well controlled only by controlling the proper rotating speed for stirring, the viscosity of the mixed paste is the best when the rotating speed is 65r/min, the viscosity of the paste is the best when the paste is used, heat preservation can be well carried out when the paste is used, and the internal performance of the paste can be more stable when 6 parts of small auxiliaries are added. Therefore, the performance of the device can be better exerted during use.
本申请涉及膏料生产领域,公开了一种FLL无机保温膏料生产工艺,包括以下步骤,S1、参数设定,设定生产过程中的各项参数,将批量数据输入设定系统内进行计算;S2、组分称量;S201、称取液体组分和水,进行4~6次过滤后放置备用;S202、称取粉体组分;S203、小助剂预称量;S3、预搅拌,将S2中的组分分批次倒入分散机内,搅拌3~5次,每次搅拌结束后间隔10~16分钟。通过控制适当的转速进行搅拌才能够将膏体的黏稠度控制得较好,当转速为65r/mi n时混料出的膏体黏稠度最好,在使用时膏体的黏稠性最好能够很好地在使用时进行保温,且添加6份小助剂时能够使膏体内部性能更加的稳定,从而在进行使用时更加的发挥其性能。
Production process of FLL inorganic thermal insulation paste
一种FLL无机保温膏料生产工艺
YANG LIHENG (Autor:in) / QIN JIAJUN (Autor:in)
12.01.2024
Patent
Elektronische Ressource
Chinesisch
Preparation method of inorganic thermal insulation paste
Europäisches Patentamt | 2024
Water-based inorganic thermal-insulation thick paste coating
| Europäisches Patentamt | 2021
Inorganic thermal insulation paste and preparation method thereof
| Europäisches Patentamt | 2023
Inorganic permeation type outer wall thermal insulation injection paste material
| Europäisches Patentamt | 2022