List of Fine grinding machine products
- classification:Fine grinding machine
1~45 item / All 416 items
Reduce the workload from handling heavy objects! Here are five case studies that solved customer challenges! We are also accepting free consultations and tests tailored to your work!
- Other conveying machines
Presentation of explanatory materials on JIS and ISO standards. We propose suitable safety barriers from a rich product series! Free rental of demo kits.
- Other safety and hygiene products
Ceramic bowl (mortar) and ceramic pestle (mortar) equipped manufacturing machine, suitable for chemical products and electronic materials! The bowl can be tilted.
- Food Processing Equipment
- Mixer/agitator
- Fine grinding machine
Ishikawa-type stirring and grinding machine that can stir and crush materials containing molten material while heating.
- Other processing machines
- Fine grinding machine
- Concentration Equipment
![[Development Product] 18ZDEB Heatin...](https://image.mono.ipros.com/public/product/image/e3b/2001093550/IPROS64581330087743399048.jpeg?w=280&h=280){kind=small}
■ Crushing (grinding) is possible while heating in a vacuum. ・Heating temperature can go up to 120℃. ・Can also be used as a rotary evaporator.
- Other processing machines
- Mixer/agitator
- Fine grinding machine
Can grind even 0.5g of material. Can be used in glove boxes or draft chambers due to its ultra-compact size. Equipped with a timer and speed adjustment function.
- Fine grinding machine
- Mixer/agitator
- Concentration Equipment
We have started selling the new product Tiny plus (ultra-compact desktop model).
On September 11, 2024, we began selling the new product Tiny Plus. It enhances the existing Tiny product by adding a timer function and a rotation speed adjustment feature. 【Features】 - Maintains the basic performance of the Ishikawa-style stirring and grinding machine while achieving the smallest size. - Processing volume is 0.03 liters. - Ideal automatic mortar for researchers and developers who perform grinding tasks manually with a mortar and pestle. - The pestle tube has a built-in spring, allowing for stirring and grinding while applying pressure. - Equipped with a timer, enabling multitasking while grinding. - Features a rotation speed adjustment function, allowing grinding under various conditions. - Includes LED lighting for easy monitoring of processing status. - Designed for easy mobility and storage with a detachable AC cord. - Improved chemical resistance due to the use of a stainless steel casing, expanding its applications in laboratories and clean rooms. - Standardly equipped with an acrylic cover for splash prevention and safe handling. - Its ultra-compact and tabletop design allows for use within fume hoods or glove boxes, making it possible to grind substances containing organic solvents, provided the cover material is appropriately selected.
![[Automatic Mortar] Ultra-compact, t...](https://image.mono.ipros.com/public/product/image/0a6/2001087053/IPROS77864125937500969859.jpeg?w=280&h=280){kind=small}
Optimal for pre-dispersion! Can mix and grind materials from just a few grams. Reproduces hand grinding【Compact Automatic Mortar】. Fits in a glove box at the smallest size!
- Other machine tools
- Mixer/agitator
- Fine grinding machine
Dependence of Zeolite Particle Distribution on Grinding Time
**Summary** To understand the performance of the Ishikawa-type mixing and grinding machine produced at the Ishikawa factory, zeolite was used as the standard material to clarify the relationship between grinding time and particle size distribution through experiments. First, experiments were conducted using the D18S (desktop machine) to examine the relationship between the particle size distribution of zeolite and grinding time. The grinding times were varied at 15 minutes, 30 minutes, 1 hour, 2 hours, and 4 hours, with 2g samples taken at each interval. These samples were then analyzed for particle size distribution using a laser diffraction particle size measurement device. **Conclusion** In the particle size distribution, the peak value (mode) was 0.4μm for grinding times up to 1 hour. After 2 hours of grinding, it was 0.1μm. The standard deviation, which represents the variation in particle size, decreased with longer grinding times. However, beyond 2 hours, it saturated and remained almost constant at 3μm. From this, it can be concluded that within the experimental range, the relationship between the particle size distribution of zeolite and grinding time using the D18S shows that longer grinding times result in smaller particle size (mode) and less variation (standard deviation), but after 2 hours, it becomes constant.
The pestle rotation part rises and falls, making it easier to exchange the mortar and pestle, remove the ground material after grinding, and clean the machine. A tabletop machine for simultaneous stir...
- Emulsifier/Disperser
- Fine grinding machine
- Mixer/agitator
Dependence of Zeolite Particle Distribution on Grinding Time
**Summary** To understand the performance of the Ishikawa-type mixing and grinding machine produced at the Ishikawa factory, zeolite was used as the standard material to clarify the relationship between grinding time and particle size distribution through experiments. First, experiments were conducted using the D18S (desktop machine) to examine the relationship between the particle size distribution of zeolite and grinding time. The grinding times were varied at 15 minutes, 30 minutes, 1 hour, 2 hours, and 4 hours, with 2g samples taken at each interval. These samples were then analyzed for particle size distribution using a laser diffraction particle size measurement device. **Conclusion** In the particle size distribution, the peak value (mode) was 0.4μm for grinding times up to 1 hour. After 2 hours of grinding, it was 0.1μm. The standard deviation, which represents the variation in particle size, decreased with longer grinding times. However, beyond 2 hours, it saturated and remained almost constant at 3μm. From this, it can be concluded that within the experimental range, the relationship between the particle size distribution of zeolite and grinding time using the D18S shows that longer grinding times result in smaller particle size (mode) and less variation (standard deviation), but after 2 hours, it becomes constant.
Automation of porcelain mortar (mortar) and porcelain pestle (pestle). Ideal for a wide range of applications in food, pharmaceuticals, chemicals, and electronic materials, including stirring, grindin...
- Fine grinding machine
- Mixer/agitator
- Other processing machines
Dependence of Zeolite Particle Distribution on Grinding Time
**Summary** To understand the performance of the Ishikawa-type mixing and grinding machine produced at the Ishikawa factory, zeolite was used as the standard material to clarify the relationship between grinding time and particle size distribution through experiments. First, experiments were conducted using the D18S (desktop machine) to examine the relationship between the particle size distribution of zeolite and grinding time. The grinding times were varied at 15 minutes, 30 minutes, 1 hour, 2 hours, and 4 hours, with 2g samples taken at each interval. These samples were then analyzed for particle size distribution using a laser diffraction particle size measurement device. **Conclusion** In the particle size distribution, the peak value (mode) was 0.4μm for grinding times up to 1 hour. After 2 hours of grinding, it was 0.1μm. The standard deviation, which represents the variation in particle size, decreased with longer grinding times. However, beyond 2 hours, it saturated and remained almost constant at 3μm. From this, it can be concluded that within the experimental range, the relationship between the particle size distribution of zeolite and grinding time using the D18S shows that longer grinding times result in smaller particle size (mode) and less variation (standard deviation), but after 2 hours, it becomes constant.
![[Case Study] Ishikawa-style Automat...](https://image.mono.ipros.com/public/product/image/790/2001508377/IPROS8122767706193048872.jpg?w=280&h=280){kind=small}
Grinding and refining organic pigments using NaCl!
- Fine grinding machine
- Fine grinding machine
- Crusher
Materials Technology for Lithium-Ion Batteries and All-Solid-State Batteries: From Processes to Evaluation Techniques
- Fine grinding machine
- Crusher/Mill
- Fine grinding machine
![[Use Case] Ishikawa-style Automatic...](https://image.mono.ipros.com/public/product/image/bd7/2001508301/IPROS11924421177150472312.png?w=280&h=280){kind=small}
Powerfully crush with forced rotation. Capable of grinding hard materials.
- Fine grinding machine
- Crusher/Mill
- Crusher
Also for the pre-dispersion of electrode materials for all-solid-state batteries! A single machine can stir, grind, disperse, and knead! Reproducing hand grinding [Automatic mortar and pestle].
- Fine grinding machine
- Mixer/agitator
- Emulsifier/Disperser
Equipped with ceramic bowls (mortar) and double boilers (jacket) for heating/cooling. Simultaneous processing of grinding (crushing, disintegration), dispersion, kneading, concentration, and drying op...
- Fine grinding machine
- Emulsifier/Disperser
- Mixer/agitator
This is the Ishikawa-type mixing and grinding machine, which is widely used not only for the mixing, blending, and kneading of ointments but also for the grinding, stirring, and dispersing of medicina...
- Food Processing Equipment
- Fine grinding machine
- Mixer/agitator
Please leave the 'Ishikawa-style stirring and grinding machine' for 'stirring', 'crushing', 'mixing', and 'kneading' to Ishikawa Factory Co., Ltd.
- Mixer/agitator
- Fine grinding machine
- Emulsifier/Disperser
Introduction to the paper "Mechanochemical Dehydration of Hydrate Crystals Using AGA"
**Introduction to the Paper** Title: Mechanochemical Reactions of Hydrated Crystals Author: Professor Yasuo Arai Summary: The paper titled "Mechanochemical Reactions of Hydrated Crystals" was published in 1971 and provides valuable research findings related to gypsum and lime. This paper was written by Professor Yasuo Arai. The focus of this paper is on the characteristics and mechanisms of mechanochemical reactions in hydrated crystals. Professor Arai conducted a detailed study of the processes by which hydrated crystals, such as gypsum and lime, change under physical stimuli. As a result, he revealed that changes in crystal structure and recrystallization of materials occur during the mechanochemical reactions of hydrated crystals. The equipment used to apply this "physical stimulus" is our company's AGA. The significance of this paper contributes to understanding how mechanochemical reactions of hydrated crystals affect the applications of gypsum and lime. Furthermore, this research suggests potential applications in fields such as materials science and architectural engineering. References: Arai, Yasuo. "Gypsum and Lime," 1971. "Mechanochemical Reactions of Hydrated Crystals."
- The use of stainless steel bowls enhances thermal responsiveness, allowing for rapid heating and processing. - By thermal spraying zirconia onto stainless steel, processing performance equivalent ...
- Other processing machines
- Concentration Equipment
- Fine grinding machine
![[Heating/Cooling Type] 24REB Automa...](https://image.mono.ipros.com/public/product/image/2bb/2001504801/IPROS25542357994764581749.png?w=280&h=280){kind=small}
Ceramic mortar (mortar bowl) and ceramic pestle (pestle) manufacturing machine, suitable for chemical products and electronic materials! The bowl can be tilted.
- Food Processing Equipment
- Mixer/agitator
- Fine grinding machine
Powerful processing of stirring, grinding, crushing, disintegration, kneading, mixing, and dispersion of liquids, slurries, pastes, colloids, and powders - Ishikawa-type stirring and grinding machine,...
- Crusher
- Emulsifier/Disperser
- Fine grinding machine
- The root model of the Ishikawa-style mixing and grinding machine - Leave the "mixing," "grinding," "blending," and "kneading" to the Ishikawa-style mixing and grinding machine.
- Mixer/agitator
- Crusher
- Fine grinding machine
Even for first-time users, after inserting the sample, emulsification and dispersion processing can be performed simply by tapping the operation screen four times, using shear force from high pressure...
- Emulsifier/Disperser
- Fine grinding machine
Without a built-in screen, the structure is simple and robust, resulting in almost no failures and allowing for semi-permanent use.
- Fine grinding machine
- Fine grinding machine
- Crusher/Mill
It is a crushing device that applies impact and shear force to the supplied material using a high-speed rotating crushing rotor to grind it.
- Crusher
- Fine grinding machine
NARA's "Crushing and Drying Technology" and "Total Engineering" make ultra-fine grinding of rice possible, offering "new ingredients"!
- Food Processing Equipment
- Fine grinding machine
All pins and discs rotate! Centrifugal force acts, allowing even adhesive and cohesive materials to be finely ground without sticking.
- Crusher
- Fine grinding machine
POWTEX2025 will exhibit at the International Powder Technology Exhibition Osaka!
Makino Industries will exhibit at "POWTEX 2025 (International Powder Technology Exhibition Osaka)." At our booth, we will showcase actual machines related to powder processing and powder manufacturing, such as grinders, mixers, and classifiers. This powder technology exhibition will also hold an online exhibition on the web. For those who cannot attend in person, it will be possible to obtain information through videos and images, although not the entire exhibition will be available online. *Online exhibition: October 1, 2025 (Wednesday) to November 14, 2025 (Friday).