List of all products
2971~3015 item / All 590960 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
If you are considering introducing the tablet electronic form "i-Reporter" in Osaka.
- Electronic documents
- Other operation management software
- Document and Data Management
Protect products from impact! Improve cushioning performance with punched soundproofing materials. [Film, double-sided tape, foam materials (cushions), non-woven fabric, double-sided tape]
- Rubber
- Other polymer materials
- Processing Contract
If you are looking for advanced technology in unconventional extrusion molding processing, please leave it to us.
- Contract manufacturing
Products with a narrow width are also available! Ideal waterproof processing for automotive seals [double-sided tape, sponge foam, rubber, waterproof film, mesh].
- Other polymer materials
- Processing Contract
We provide consistent support from design, development, prototyping to mass production, turning our customers' "thoughts" into "form."
- Contract manufacturing
Products with a narrow width are also supported! Achieving both vibration damping and waterproofing for home appliances【double-sided tape, sponge foam, rubber, waterproof film, mesh】
- Other polymer materials
- Processing Contract
Products with a narrow width are also supported! Improving the waterproofing of medical devices [double-sided tape, sponge foam, rubber, waterproof film, mesh].
- Other polymer materials
- Processing Contract
A training course for LSI design engineers aimed at inexperienced individuals and beginners, compatible with grant funding for reskilling.
- Distance learning/E-learning
- ASIC
- others
Products with narrow widths are also available! Complex shapes and curved forms are possible【double-sided tape, sponge foam, rubber, waterproof film, mesh】.
- Other polymer materials
- Processing Contract
A challenge to manufacturing technologies that cannot be imitated by others.
- Contract manufacturing
Supports narrow widths and complex shapes. Improves the waterproofing of buildings. [Double-sided tape, sponge foam, rubber, waterproof membrane, mesh]
- Other polymer materials
- Processing Contract
Products with narrow widths can also be processed with punching! We can accommodate complex shapes and curved designs【double-sided tape, sponge foam, rubber, waterproof film, mesh】.
- Other polymer materials
- Processing Contract
Protect your products from shocks! Compatible with complex shapes. [Double-sided tape, sponge foam, rubber, waterproof film, mesh]
- Other polymer materials
- Processing Contract
Supports narrow widths and complex shapes! Achieves both light shielding and waterproofing【double-sided tape, sponge foam, rubber, waterproof film, mesh】
- Other polymer materials
- Processing Contract
It was born from the pursuit of the ideal that simplicity is best, such as going straight, turning, and branching.
- Conveyor
- Other conveying machines
Horizontal and vertical operation type! It is a power unit equipped with a chain conveyor.
- lift
- Other conveying machines
- Conveyor
This is an inclined conveyor with a unique pocket shape that is not available from other companies.
- Conveyor
Compact! Ideal for explosion-proof specifications! A pneumatic lift with a simple structure that makes maintenance easy.
- lift
Available in wheel 50P mounting type and wheel conveyor type.
- lift
- Other conveying machines
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
One-stop service for filling, packaging, and delivery of lubricating oil!
- Processing Contract
- Binding/Packing Machine
- Filling and bottling machines
Thanks to our unique dispersion system, we can achieve the mixing and dispersion of fine powders in a short time without generating lumps! We can accommodate both continuous and batch processes.
- Emulsifier/Disperser
- Vacuum degassing machine
- Dispersion/emulsification equipment/homogenizer
Reproducibility of slurry dispersion is created from process design.
- Emulsifier/Disperser
- Vacuum degassing machine
- Dispersion/emulsification equipment/homogenizer
Why can't powders be supplied stably? - What causes supply irregularities in low bulk density powders?
In low bulk density powders and fine powders, issues such as "unstable supply," "pulsation," and "bridging without falling" frequently occur. Particularly with CNTs, carbon black, and flake powders, the particles tend to entangle easily and have low flowability, making stable quantitative supply difficult with conventional powder feeding methods. When powder supply becomes unstable, instantaneous concentration fluctuations occur, significantly affecting the dispersion quality, viscosity, and conductivity in subsequent processes. In practice, even problems that appear to be "poor dispersion" often have their causes on the powder supply side. Moreover, in low bulk density powders, bridging, rat-holing, and supply pulsations due to air entrapment are likely to occur within the hopper, and simply relying on feeder capacity may not resolve these issues. To achieve stable supply, it is crucial to design the entire process, including hopper design, supply methods, transport conditions, and feeding methods, according to the characteristics of the powder. Our company offers a solid-liquid mixing process that includes quantitative supply using loss-in-weight feeders and integration with inline dispersion devices. By designing the entire process from powder supply to dispersion as a cohesive unit, we support the establishment of stable manufacturing conditions even for high-performance materials.
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 strength is determined by the variance. Visualize quality variations through testing before mass production.
- Emulsifier/Disperser
- Vacuum degassing machine
- Dispersion/emulsification equipment/homogenizer
What are the reasons for changes in results from the lab to mass production? Causes and countermeasures for the deterioration of distributed quality during scale-up.
Despite obtaining good dispersion results in the lab, the challenge of unstable quality upon mass production occurs in many settings. The main cause of this is that the dispersion conditions are not replicated due to differences in scale. In lab equipment, the smaller size leads to higher energy density, making shear and flow more uniform, while in mass production equipment, the larger scale often results in insufficient dispersion energy at the same rotational speed and processing time. Additionally, differences in equipment structure and flow patterns can cause variations in the shear history and residence time experienced by particles, leading to differences in the dispersion state. Furthermore, simple scale-up does not ensure that critical parameters such as flow rate, residence time, and shear intensity match, making it difficult to reproduce the same results as in the lab. To address these challenges, it is essential to focus on process design based on dispersion energy density and flow conditions rather than merely increasing equipment size. By designing the system so that particles pass through the processing area under consistent conditions, it is possible to achieve reproducible dispersion quality even when the scale changes, as seen in inline continuous processing.
The dispersion quality of battery materials is determined by the process. A solid-liquid mixing dispersion system that suppresses agglomeration and aggregation.
- Emulsifier/Disperser
- Vacuum degassing machine
- Dispersion/emulsification equipment/homogenizer
What are the causes and countermeasures for quality variation in dispersed engineering? An explanation of design points to prevent instability in particle size distribution and reduced reproducibility.
In dispersion processes, issues such as unstable particle size distribution and quality variation between batches occur in many settings. These quality variations are caused not only by equipment performance but also by variations in dispersion conditions, flow states, and process design. For example, when shear energy is uneven, differences arise in the disintegration state of particles, leading to a wider particle size distribution and residual agglomeration. Additionally, in batch processing, variations in mixing uniformity and residence time can cause fluctuations in dispersion state between batches, making it difficult to ensure reproducibility. Particularly in high-viscosity systems or high solid content slurries, even slight variations in conditions can significantly impact quality. To suppress quality variations, it is crucial to design processes that maintain consistent dispersion energy and flow conditions. By stabilizing conditions, as in inline continuous processing, it becomes possible to reduce inter-batch differences and achieve stable dispersion quality. Furthermore, in dispersion processes, not only the performance of the equipment itself but also operating conditions such as input order, residence time, and flow control greatly affect quality. Inline continuous processing makes it easier to maintain these conditions consistently, ensuring stable dispersion even in high-viscosity slurries. By designing the entire process, it is possible to fundamentally suppress quality variations.
Dispersion is not determined by the equipment. It is determined by the process design of the solid-liquid mixing dispersion system.
- Dispersion/emulsification equipment/homogenizer
- Emulsifying and dispersing machine
- Emulsifier/Disperser
What are the causes and countermeasures for quality variation in dispersed engineering? An explanation of design points to prevent instability in particle size distribution and reduced reproducibility.
In dispersion processes, issues such as unstable particle size distribution and quality variation between batches occur in many settings. These quality variations are caused not only by equipment performance but also by variations in dispersion conditions, flow states, and process design. For example, when shear energy is uneven, differences arise in the disintegration state of particles, leading to a wider particle size distribution and residual agglomeration. Additionally, in batch processing, variations in mixing uniformity and residence time can cause fluctuations in dispersion state between batches, making it difficult to ensure reproducibility. Particularly in high-viscosity systems or high solid content slurries, even slight variations in conditions can significantly impact quality. To suppress quality variations, it is crucial to design processes that maintain consistent dispersion energy and flow conditions. By stabilizing conditions, as in inline continuous processing, it becomes possible to reduce inter-batch differences and achieve stable dispersion quality. Furthermore, in dispersion processes, not only the performance of the equipment itself but also operating conditions such as input order, residence time, and flow control greatly affect quality. Inline continuous processing makes it easier to maintain these conditions consistently, ensuring stable dispersion even in high-viscosity slurries. By designing the entire process, it is possible to fundamentally suppress quality variations.
Thanks to our unique dispersion system, mixing and dispersing fine powders can be achieved in a short time without causing clumping! We can accommodate both continuous and batch processes.
- Emulsifier/Disperser
- Vacuum degassing machine
- Dispersion/emulsification equipment/homogenizer