List of Scientific and Physics Equipment products
- classification:Scientific and Physics Equipment
1441~1485 item / All 35098 items
Achieves high collection efficiency through electrostatic methods. Offers a wide range of products from large to small sizes. Also compatible with water-soluble oil mist.
- air conditioning
Inline continuous process that stabilizes CNT dispersion without disrupting its state.
- Emulsifier/Disperser
- Vacuum degassing machine
- Dispersion/emulsification equipment/homogenizer
What are the causes of dispersion troubles? An explanation of the reasons for aggregation, sedimentation, and variation, as well as design points to reconsider in the dispersion process.
In dispersion engineering, issues such as unresolved agglomeration, sedimentation, and unstable particle size distribution occur frequently at many sites. These problems are caused not only by the performance of the equipment but also by inconsistencies in particle characteristics, dispersion conditions, and process design. For example, when there is insufficient dispersion energy, particles do not break down to primary particles, and agglomeration remains. Additionally, if the shear conditions or flow state are not appropriate, uniform dispersion cannot be achieved, leading to sedimentation and variations in quality. Particularly in high-viscosity systems or high solid content slurries, even slight differences in conditions can significantly impact the results. Furthermore, in batch processing, variations in mixing uniformity and residence time make it difficult to ensure reproducibility. To resolve these dispersion issues, it is important to optimize the entire process, including particle characteristics, dispersion energy, and flow design, rather than simply changing the equipment. By maintaining consistent conditions, as in inline continuous processing, stable dispersion quality and reproducibility can be achieved.
The negative electrode slurry's key is balancing viscosity and dispersion. Process design that can be reproduced up to mass production.
- Emulsifier/Disperser
- Vacuum degassing machine
- Dispersion/emulsification equipment/homogenizer
The quality of the positive electrode slurry is determined by the process, not the equipment. A dispersed design that takes mass production into account.
- Emulsifier/Disperser
- Vacuum degassing machine
- Dispersion/emulsification equipment/homogenizer
The quality of the battery slurry is determined by the process. A dispersion design that can be reproduced from research to mass production.
- Emulsifier/Disperser
- Vacuum degassing machine
- Dispersion/emulsification equipment/homogenizer
CNT dispersion is determined by the process. Control of aggregation stabilizes conductivity.
- Emulsifier/Disperser
- Vacuum degassing machine
- Dispersion/emulsification equipment/homogenizer
What are the reasons for the inability to disperse high-viscosity slurries? The mechanisms behind poor dispersion and design points for solutions.
In the dispersion process of high-viscosity slurries, issues such as "not being dispersed despite being mixed" and "remaining clumps" occur. The main cause of these problems is that the increase in viscosity reduces fluidity, preventing dispersion energy from being evenly transmitted throughout the system. Generally, dispersion breaks apart agglomerated particles through shear force, but in a high-viscosity state, the flow becomes localized, leading to differences between areas experiencing shear and those that do not. As a result, undispersed areas and agglomerates remain, causing variations in particle size distribution and quality issues. Furthermore, the higher the viscosity, the weaker the circulation within the equipment, making it difficult for particles to pass uniformly through the processing area, which also decreases reproducibility. In batch processing, variations in residence time and mixing state become particularly pronounced, making it easier for lot differences to occur. To achieve stable dispersion in high-viscosity systems, not only shear enhancement but also flow design and ensuring circulation are important. By simultaneously controlling flow and shear, as in inline continuous processing, uniform and highly reproducible dispersion can be achieved. Additionally, the wettability of the powder and the method of introduction during the initial dispersion are also crucial; if the initial dispersion is insufficient, the subsequent breaking efficiency decreases.
Palm-sized metal products! Leave the pre-processing, painting, and shipping to us.
- Surface treatment contract service
Because we have done the painting! We can meet all quality, performance, and budget requirements.
- Surface treatment contract service
■Equipped with energy-saving mode In addition to the normal (receiver) mode and high-brightness mode, a new energy-saving mode has been added, allowing brightness to be switched between three levels.
- Stainless steel container
Ion exchange resin type pure water system
- Pure water production equipment
Mobile RO Purified Water System KTRO-01/02
- Pure water production equipment
High-capacity RO pure water system KTRO-multi custom
- Pure water production equipment
Reducing the effort of bottle cleaning in-house! We are currently publishing an application note regarding particles and metal components inside bottles.
- Plastic utensils and containers
Introducing engineering solutions utilizing ozone water and gaseous ozone as examples of "water quality improvement" and "space sterilization."
- Ozone Generator
Improving the quality and productivity of battery materials with high-precision powder supply.
- Powder Conveyor Device
High-precision, high-pressure compatible, layout-free powder air transport system.
- Powder Conveyor Device
High precision, high pressure compatible, layout-free pneumatic conveying system for powders.
- Powder Conveyor Device
High precision, high pressure compatible, layout-free powder air transport system.
- Powder Conveyor Device
High-precision, high-pressure compatible, layout-free pneumatic conveying system for powders.
- Powder Conveyor Device
High-precision, high-pressure compatible, layout-free powder air transport system.
- Powder Conveyor Device
High-precision, high-pressure compatible, layout-free powder air transport system.
- Powder Conveyor Device
High-precision, high-pressure compatible, layout-free pneumatic conveying system for powders.
- Powder Conveyor Device
High precision, high pressure compatible, layout-free pneumatic conveying system for powders.
- Powder Conveyor Device
High-precision, high-pressure compatible, layout-free powder air transport system.
- Powder Conveyor Device
Improving the quality and efficiency of food formulations with high-precision powder supply.
- Powder Conveyor Device
Improving measurement accuracy and work efficiency in plastic manufacturing.
- Powder Conveyor Device
We will solve the challenges of powder supply in feed manufacturing.
- Powder Conveyor Device
We propose a powder container system that is optimal for the purification process of electronic materials.
- Powder Conveyor Device
Container system for optimizing the powder dispersion process in paint manufacturing.
- Powder Conveyor Device
Optimize powder handling in ceramics molding. Improve weighing accuracy, cleanliness, and workability.
- Powder Conveyor Device
We propose an optimal container system to solve the challenges of powder storage in the mining industry.
- Powder Conveyor Device
Achieving efficiency in fertilization operations and improving quality with a powder container system.
- Powder Conveyor Device
We will solve the challenges of powder filling in cosmetic manufacturing.
- Powder Conveyor Device
A powder container system that enables safe transportation and efficiency of chemicals.
- Powder Conveyor Device
Achieving both measurement accuracy and cleanliness. We solve the challenges of pharmaceutical manufacturing.
- Powder Conveyor Device
We solve the challenges of powder mixing in food manufacturing.
- Powder Conveyor Device
Resolve issues of not dissolving and clumping in advance. Test the dispersibility of the protein.
- Emulsifier/Disperser
- Vacuum degassing machine
- Dispersion/emulsification equipment/homogenizer
Notice of Participation in 'FOOMA JAPAN 2026' from June 2 (Tuesday) to June 5 (Friday), 2026
Shibuya Kogyo Co., Ltd. will exhibit at FOOMA JAPAN 2026, which will be held at Tokyo Big Sight from June 2 (Tuesday) to June 5 (Friday), 2026. We will introduce various devices that contribute to "quality improvement," "labor saving," and "cleaning efficiency" in food and beverage manufacturing. [Exhibition Details] ■ Two-stage superheated steam circulation baking machine (JESTOS Jr.) *Panel display and tasting available - Achieves high-quality baking that is fluffy in a short time using superheated steam - Capable of low-temperature to high-temperature cooking (with a firm browning) with a single machine - Prevents oxidation by blocking outside air with a shielding nozzle (patented) ■ 3D nozzle type container cleaning machine (TSW4000 model) *Actual machine display - Achieves high cleaning power with low water usage and short time - Contributes to reduced cleaning time and utility costs ■ Continuous and batch continuous solid-liquid mixing system *Panel display - Stabilizes the mixing and dispersion of powders and liquids inline - Accommodates high-viscosity materials and high solid content such as proteins, achieving uniform quality and reproducibility - Capable of engineering proposals including process design On the day, you can experience solutions to on-site challenges through actual machines, panels, and tastings. Please feel free to stop by our booth.
The strength is determined by the variance. Visualize quality variations through testing before mass production.
- Emulsifier/Disperser
- Vacuum degassing machine
- Dispersion/emulsification equipment/homogenizer
Quality changes with dispersion. Pre-validation of the reproducibility of resin materials through testing.
- Emulsifier/Disperser
- Vacuum degassing machine
- Dispersion/emulsification equipment/homogenizer
Verify before failing in mass production. Confirm the reproducibility of slurry dispersion in advance.
- Emulsifier/Disperser
- Vacuum degassing machine
- Dispersion/emulsification equipment/homogenizer
What are the reasons for the inability to disperse high-viscosity slurries? The mechanisms behind poor dispersion and design points for solutions.
In the dispersion process of high-viscosity slurries, issues such as "not being dispersed despite being mixed" and "remaining clumps" occur. The main cause of these problems is that the increase in viscosity reduces fluidity, preventing dispersion energy from being evenly transmitted throughout the system. Generally, dispersion breaks apart agglomerated particles through shear force, but in a high-viscosity state, the flow becomes localized, leading to differences between areas experiencing shear and those that do not. As a result, undispersed areas and agglomerates remain, causing variations in particle size distribution and quality issues. Furthermore, the higher the viscosity, the weaker the circulation within the equipment, making it difficult for particles to pass uniformly through the processing area, which also decreases reproducibility. In batch processing, variations in residence time and mixing state become particularly pronounced, making it easier for lot differences to occur. To achieve stable dispersion in high-viscosity systems, not only shear enhancement but also flow design and ensuring circulation are important. By simultaneously controlling flow and shear, as in inline continuous processing, uniform and highly reproducible dispersion can be achieved. Additionally, the wettability of the powder and the method of introduction during the initial dispersion are also crucial; if the initial dispersion is insufficient, the subsequent breaking efficiency decreases.
The wear-resistant "Ceramic Armor" and the corrosion-resistant "Blue Armor" add functionality to the materials!
- Surface treatment contract service
- Cooking equipment
Achieving uniform mixing of fuel additives at a pilot scale.
- Mixer/agitator
- mixer
- Mixer