The experiment was a complete success, and the customer decisively purchased the same equipment,rucca
The experiment was a complete success, and the customer decisively purchased the same equipment
Today, with high-tech materials and nanotechnology advancing rapidly, every successful experiment may be a crucial step in promoting the progress of the industry.
In this experiment, centered around the goal proposed by the customer's boss to refine the particle size from 80 nanometers to 60 nanometers or even finer, the Rucca experimental team and the customer's technical team closely cooperated to jointly explore the limits of nanomaterial grinding technology.
This is not only a technical challenge but also an ultimate test of innovative thinking and precise operation ability.
At the beginning of the experiment, in the face of the high-standard requirements of the customer's boss, the Rucca experimenter responded quickly, sent the material into the vertical grinder, and adjusted the rotation speed to the maximum - 6000 revolutions per minute to ensure the maximization of grinding efficiency.
Regarding the timing of adding the dispersant, the experimenter and the customer's technical team had a detailed discussion. Finally, it was decided to follow the customer's technical advice to conduct grinding observation first and then decide whether to add and the amount of addition according to the state of the material after grinding.
This decision reflects a rigorous attitude towards the experimental process and precise control over the experimental results.
As the grinding time passes, the monitoring data for each hour affects everyone's heart.
From the significant reduction of the initial D90 particle size to the subsequent gradual stabilization, the experimenters closely monitored the changes in the material and maintained real-time communication with the customer's technical team.
After three hours of grinding, the customer's technical team initially judged that the expected effect had been achieved. However, the customer's boss still pursues perfection and hopes to further refine it to the D50 60 nanometer or even finer level.
This unremitting pursuit of quality is precisely an important driving force for promoting scientific and technological progress.
Facing the situation where the particle size refinement seems to be stuck in a bottleneck, the customer's technical team proposed a dilution grinding strategy aiming to further improve the grinding effect by reducing the solid content.
This bold attempt received a positive response from the Rucca experimenters and achieved remarkable results in actual operations.
After dilution and continued grinding for 30 minutes, the particle size successfully broke through to 40 nanometers. This result not only exceeded the initial expectations but also proved the excellent ability of the team in technological innovation and problem-solving.
The success of the experiment did not make the team stop here. The customer's technical team quickly carried out follow-up verification work on the samples and expected to achieve even better results with smaller 0.05mm zirconia beads.
This is not only an affirmation of the results of this experiment but also an infinite vision for future technological development.
The success of this experiment is the crystallization of the joint efforts and close cooperation between the Rucca experimental team and the customer's technical team.
It not only shows the profound accumulation and innovation ability of both parties in the field of nanomaterial grinding technology but also lays a solid foundation for the research and development of subsequent more advanced and sophisticated technologies.
In today's rapidly changing technology, only by constantly pursuing excellence and daring to explore the unknown can one remain invincible in the fierce competition.
We believe that in the days to come, Rucca and customers will go hand in hand and jointly create a new chapter in nanotechnology.
Today, with high-tech materials and nanotechnology advancing rapidly, every successful experiment may be a crucial step in promoting the progress of the industry.
In this experiment, centered around the goal proposed by the customer's boss to refine the particle size from 80 nanometers to 60 nanometers or even finer, the Rucca experimental team and the customer's technical team closely cooperated to jointly explore the limits of nanomaterial grinding technology.
This is not only a technical challenge but also an ultimate test of innovative thinking and precise operation ability.
At the beginning of the experiment, in the face of the high-standard requirements of the customer's boss, the Rucca experimenter responded quickly, sent the material into the vertical grinder, and adjusted the rotation speed to the maximum - 6000 revolutions per minute to ensure the maximization of grinding efficiency.
Regarding the timing of adding the dispersant, the experimenter and the customer's technical team had a detailed discussion. Finally, it was decided to follow the customer's technical advice to conduct grinding observation first and then decide whether to add and the amount of addition according to the state of the material after grinding.
This decision reflects a rigorous attitude towards the experimental process and precise control over the experimental results.
As the grinding time passes, the monitoring data for each hour affects everyone's heart.
From the significant reduction of the initial D90 particle size to the subsequent gradual stabilization, the experimenters closely monitored the changes in the material and maintained real-time communication with the customer's technical team.
After three hours of grinding, the customer's technical team initially judged that the expected effect had been achieved. However, the customer's boss still pursues perfection and hopes to further refine it to the D50 60 nanometer or even finer level.
This unremitting pursuit of quality is precisely an important driving force for promoting scientific and technological progress.
Facing the situation where the particle size refinement seems to be stuck in a bottleneck, the customer's technical team proposed a dilution grinding strategy aiming to further improve the grinding effect by reducing the solid content.
This bold attempt received a positive response from the Rucca experimenters and achieved remarkable results in actual operations.
After dilution and continued grinding for 30 minutes, the particle size successfully broke through to 40 nanometers. This result not only exceeded the initial expectations but also proved the excellent ability of the team in technological innovation and problem-solving.
The success of the experiment did not make the team stop here. The customer's technical team quickly carried out follow-up verification work on the samples and expected to achieve even better results with smaller 0.05mm zirconia beads.
This is not only an affirmation of the results of this experiment but also an infinite vision for future technological development.
The success of this experiment is the crystallization of the joint efforts and close cooperation between the Rucca experimental team and the customer's technical team.
It not only shows the profound accumulation and innovation ability of both parties in the field of nanomaterial grinding technology but also lays a solid foundation for the research and development of subsequent more advanced and sophisticated technologies.
In today's rapidly changing technology, only by constantly pursuing excellence and daring to explore the unknown can one remain invincible in the fierce competition.
We believe that in the days to come, Rucca and customers will go hand in hand and jointly create a new chapter in nanotechnology.
