Rotor Stator Mixers/Rotor Stator Manufacturers, Suppliers, Exporters, Trader and Dealer in India| Various Rotor Stator Mixers Specifications are offered by SPM Process Systems.

Exploring Brushed DC Motors: Operations, Applications, and Innovations

The world of electric motors is vast and diverse, with the Brushed DC motor being one of its most significant members. A Brushed DC motor is an electric motor that is internally commutated and specifically designed to operate using a direct current power source.

Understanding the Operations of Brushed DC Motors

A Brushed DC motor operates by utilizing the interaction between two magnetic fields. One is created by the current passing through the armature (rotor), while the other is produced by the stator as a static field. Current is supplied to the rotor through carbon or graphite brushes, which are connected to a mechanical rotary switch called the commutator. As the rotor rotates, the brushes remain stationary while the commutator segments move beneath them. This mechanism ensures that the rotor continues to rotate in one direction.

Applications of Brushed DC Motors

Brushed DC motors are widely used in a variety of applications due to their versatility and functionality. Some notable examples include:

Electric Vehicles: The high starting torque of Brushed DC motors makes them ideal for use in electric vehicles.

Industrial Machinery: With excellent speed control and high torque, these motors are a popular choice for various industrial machinery such as lathes and drills.

Home Appliances: Smaller Brushed DC motors are commonly used in household appliances such as fans, mixers, and toys.

Computer Systems: These motors play an integral role in computer hardware, specifically in spinning the hard drive disk.

Innovations in Brushed DC Motors

Electric Motor Power (EMPPL) is a highly reputable and established manufacturer of Brushed DC motors in Australia. With a focus on excellence and innovation, they pride themselves on offering top-of-the-line, high-performance, and efficient Brushed DC motors that are unmatched in the industry.

At EMPPL, they understand that every motor has unique requirements, which is why they offer a diverse range of options to cater to the specific needs of their customers. Their product line includes 3 different sizes of Permanent Magnet Brushed DC motors, each designed to deliver exceptional performance. These motor sizes cover a wide range between 30 W to 540 W for continuous-duty applications, while also capable of handling intermittent use up to 1 kW. Additionally, their motors are available in various voltage ranges from 12V to 250V DC.

Conclusion

The field of Brushed DC motors is expansive and varied, with numerous applications and benefits that make them essential in various industries. As we continue to innovate and improve upon these technologies, we move closer to a future where Brushed DC motors continue to play a significant role in various applications. The advancements in Brushed DC motor technology are not just enhancing our present but are also paving the way for a more sustainable and efficient future. So, whether you’re an industry professional or a technology enthusiast, the journey of exploring Brushed DC motors promises to be an exciting and enlightening one.

40L Lab High Shear Manufacturer Homogenizer Emulsion Mixer Rotor Stator Emulsifying Machine for Cosmetic Cream JRJ300-D-1 https://a.aliexpress.com/_mrnV4NQ https://www.instagram.com/p/CrewxHioF3W/?igshid=NGJjMDIxMWI=

Importance of high shear mixers in processing industry High Shear Mixers Importance of high shear mixers in processing industry Wahal Engineers manufacture and large export a wide range of equipment, including Bitumen Emulsion, PMB, and Cutback Plants. Wahal Engineers, specially designed, makes High Shear Inline homogenizer for work on the principle of a high centrifugal force produced because of its large rpm of rotor mounted in the main spindle. The specially designed minimal tolerance of the rotor and stator makes it very high in shear.

Gel Making Reactors

 Mixing Vessels for Making Gel.

 Gel making reactors / Mixing vessels are vessels having two types of mixing arrangements.

1)      High Shear mixing

2)      2) Anchor type impiller Mixer.

As these mixers are totally different type they can not be put on single agitator shaft. The High Shear Mixing is a high speed mixer and is inserted from the bottom of the tank. This position of the mixer makes it easy for maiontenance and also the required sfaft is very small. The Other Anchor type mixer is from the top and is a slow mixer. These two mixers can be used symulteneously to make the gel making process fast. We have manufactured these type of vessels upto 3000 liters capacity. In Stainless steel SS 304 and SS 316. The vessels are with Heating Jacket to maintain the Product Consistancy.

 High Shear mixing

 As these mixers are totally different type they cannot be put on single agitator shaft. The High Shear Mixing is a high speed mixer and is inserted from the bottom of the tank. This position of the mixer makes it easy for maintenance and also the required shaft is very small.

The advent of rotor/stator mixers revolutionized mixing technology. Imparting vigorous radial and axial flow patterns and intense shear, Umasons High Shear Mixers accomplish a variety of processing objectives including homogenization, emulsification, powder wet-out and deagglomeration.

Umasons High Shear Mixers are used in many industries, including the pharmaceutical, food, cosmetics, ink, adhesive, chemical and textile industries. For challenging performance, Umason also offers advanced rotor / stator configurations: Ultra High Shear Mixers capable of producing excellent emulsions and dispersing that often need to be processed on an expensive colloid machine or high pressure homogenizer.Available in batch and inline collections, many popular laboratory and production models are available in stock.

Anchor type impeller Mixer.

 The Other Anchor type mixer is from the top and is a slow mixer. These two mixers can be used simultaneously to make the gel making process fast. Anchor impellers are specially used for very high flow, with viscosity ranging from 10 to 100 Pa.s, common polymer reaction and other processes in the food industry. Reactions are usually carried out under the laminar flow. Anchor impellers are also suitable for counterfeit plastic and thixotropic liquid. Aside from its importance in the chemical industry, there are a number of activities, which study anchor type impellers. The computer functions of these impellers are very limited and often show a basic grid as well as a horizontal measurement and shape of the vessel. This work introduces a detailed model of a stirred vessel using anchor impellers. It calculates three parts of the velocity in a two-dimensional grid. The simulation refers to the second flow, which is of particular interest because, under the laminar flow, it controls the heat transfer.

Contact Us

M/S. UMASONS STEELFAB PVT. LTD.

Head Office Address : 15 - A, MIDC Industrial Area, Near Railway Station, Aurangabad - 431 005, Maharashtra, India.

Mobile : + 91 - 93252 12661

Tel No. : + 91 - 240 - 2320979, 6455506

Rapid Mixer Granulator

The advent of rapid mixer granulators or high shear mixer granulators also called rotor/stator mixers revolutionized mixing technology. Imparting vigorous radial and axial flow patterns and intense shear, Senieer Rapid Mixer Granulators or High Shear Mixers accomplish a variety of processing objectives including homogenization, emulsification, powder wet-out, and agglomeration.

Senieer High Shear Inline Mixers are used throughout many industries, including the pharmaceutical, food, cosmetics, ink, adhesives, chemicals, and coatings industries. For challenging applications, Senieer also offers advanced rotor/stator configurations: Ultra-High Shear Mixers capable of producing very fine emulsions and dispersions that traditionally require processing in an expensive colloid mill or high-pressure homogenizer.

Senieer high shear mixer is an innovative solid dosage production platform designed to achieve operational excellence in the pharmaceutical manufacturing Industry. Raw materials are converted into final dosage forms in development, pilot, clinical and production volumes using wet granulation in one continuous production line. Senieer high shear homogenizer or High Shear Mixer Granulator, offer the outstanding advantages of efficiency and product uniformity achieved with shearing mixing.

Senieer High Shear Mixer's Features:

Granulation process requires less bind

Granulation is achieved within a short time

Greater densification and production of less friable granules

The granulator produces reproducible less friable granules with a uniform particle size distribution

High shear mixer minimizes the exposure of drug dust to workers due to reduced process dust generation

The granulation endpoint is predictable while using a high shear mixer

Saving 25% of adhesives and drying time

It can be equipped with cone mill or swing granulator

Connect with fluid bed dryer

We offer free Customization & Consultancy services for Rapid Mixer Granulators

Senieer high shear mixers can be customized according to your requirements, once you improve detailed user requirement statement (URS), we can supply the equipment line drawings and suggestion for your factory layout, and we will also provide you technical support without any additional cost.

How is the laboratory emulsifying mixer maintained?

The laboratory has become the core of a factory. The research and development center of a factory can not be separated from the laboratory. The strength of a manufacturer depends on the size of the laboratory investment and the equipment. The laboratory emulsifying mixer is a very high-end instrument.

Medicinal cream is a relatively common creamy preparation, and its preparation requires corresponding emulsifying equipment. In recent years, with the rapid development of the pharmaceutical industry, the market for medicated cream has continued to grow, which has brought more opportunities to related emulsifying equipment.

Among them, laboratory emulsifying mixer is a special equipment for experiments, which has the characteristics of high efficiency, fast and uniform, and is suitable for experiments or small-scale production. However, no matter what grade of laboratory emulsifying mixer is, the user should pay attention to the maintenance, some manufacturers and technicians made a brief introduction of equipment maintenance knowledge to see how to maintain the laboratory emulsifying mixer in the end?

First, when users use the emulsifying mixer, liquid materials must be continuously input or kept in a certain amount in the container. The purpose of this is to avoid empty machine operation and prevent the equipment from being damaged due to high temperature or solidification of the material in the work.

Second, after the experiment or small-scale production is completed, the laboratory emulsifying mixer must be cleaned up. This can not only maintain the working efficiency of the stator and the rotor, but also protect the seal of the emulsifying mixer.

Third, after confirming that the seal cooling water is turned on, the laboratory emulsifier starts the motor. It should be noted that the rotation of the motor should be the same as that of the main shaft, and it should not be reversed.

Fourth, it is strictly forbidden to enter the working chamber of the emulsifying mixer with metal shavings or hard and hard-to-break debris, so as to avoid catastrophic damage to the equipment.

Fifth, according to the different media used by the user, the user must regularly clean the import and export filters to avoid reducing the amount of feed and affecting production efficiency.

In addition, the materials entering the working chamber must be fluid, and dry powder and agglomerates are not allowed to enter the machine directly, otherwise it will cause stuffing and damage the emulsifying mixer.

Sixth, if the laboratory emulsifying mixer is running, if there is liquid leakage at the shaft, the pressure of the machine seal must be adjusted after stopping.

Seventh, the safety of equipment and personnel needs to be guaranteed. In general, before users use laboratory emulsifying mixer, enterprises need to formulate corresponding safety production operation procedures to ensure the safety of operators and equipment. In the electrical control system, it is necessary for the user to set up a safety protection system and have a good and reliable electrical motor grounding device.

more:https://www.yekeey.com/

Trickle Varnishing Machine

AR Engineering is a company founded by Mr. Arvind Mutalik in 1988, for manufacturing of transformer oil filtration machines. Since then AR Engineering has developed different types of Insulating Oil upgrading systems suitable for in-house and onsite operation. The plants are suitable for Transformer & Capacitor Manufacturers, Transformer Repairers, Transformer Owners, Oil filtration service providers etc. These plants work on low temperature, high vacuum principle.

We also developed Trickle Impregnating Machines for varnishing of electrical machines windings such as armatures, rotors, field coils, stators. These machines are suitable for varnishing of electrical windings in mass production. Auto electrical parts, mixers, fans, electrical motors, Instrument transformers etc. are few to name. ​ We also manufacture Vacuum Impregnation Plants for big electrical windings and Vacuum Drying Ovens for drying of transformers, capacitors etc. On line transformer oil regeneration plants are under development 

Trickle Varnishing Machine   In today’s competitive world the electrical insulation materials and the processes are viewed with tremendous cost and quality consciousness. Varnishing of electrical machine winding forms a major part of the total cost of the electrical insulating materials. With the increasing costs of energy and solvents for use in varnishing, it has become a need of the hour to look into the change in the conventional impregnation methods such as Dip and bake varnishing or the Vacuum impregnation.   On this background Trickle impregnation technique was evolved to improve the varnishing quality coupled with reduced cost. This technique is now well accepted and used for impregnating stators/fields and armatures/rotors in all the advanced countries.

For more information, please contact us on - +91 9422605890, +91 9423992734

Industrial homogenizers and SPM Process Systems manufacturers, suppliers, and exporters in IndiaIn India, we are offering a homogenizer.

Transformer Oil Filtration Plant Manufacturer & Exporter In India.

AR Engineering is a company founded by Mr. Arvind Mutalik in 1988, for manufacturing of transformer oil filtration machines. Since then AR Engineering has developed different types of Insulating Oil upgrading systems suitable for in-house and onsite operation. The plants are suitable for Transformer & Capacitor Manufacturers, Transformer Repairers, Transformer Owners, Oil filtration service providers etc. These plants work on low temperature, high vacuum principle.We also developed Trickle Impregnating Machines for varnishing of electrical machines windings such as armatures, rotors, field coils, stators. These machines are suitable for varnishing of electrical windings in mass production. Auto electrical parts, mixers, fans, electrical motors, Instrument transformers etc. are few to name.We also manufacture Vacuum Impregnation Plants for big electrical windings and Vacuum Drying Ovens for drying of transformers, capacitors etc. On line transformer oil regeneration plants are under development.Welcome to AR Engineering

AR Engineering is a company founded by Mr. Arvind Mutalik in 1988, for manufacturing of transformer oil filtration machines. Since then AR Engineering has developed different types of Insulating Oil upgrading systems suitable for in-house and onsite operation.

40L Lab High Shear Manufacturer Homogenizer Emulsion Mixer Rotor Stator Emulsifying Machine for Cosmetic Cream JRJ300-D-1 https://a.aliexpress.com/_mtR3Yms https://www.instagram.com/p/Cq5HgyWuMQ7/?igshid=NGJjMDIxMWI=

Global Market for High Shear Mixers to Register Impressive Growth During 2017 - 2025

Global High-shear Mixer Market: Overview

The high-shear mixer also called as rotor mixer, is a high power mixer widely used for effective dissolution of adhesives, coatings or additives. In a high shear mixer, the rotor turns at a high speed within the stationary stator. The high-shear mixer operates wherein the mixing materials are expelled at high velocity creating hydraulic shear which breaks the solid agglomerates. The process industries require high shear mixing to produce solutions, emulsions and dispersions. The industries such as chemical, pharmaceuticals, adhesives, food, plastics etc. places high valued process for gaining efficiency coupled with lean manufacturing techniques. The high competition among various manufacturing companies in the market not only requires machinery for raw materials processing but also to achieve high process efficiency with the current advanced manufacturing techniques. The high shear mixers provide manufacturers achieve quick mix times and same efficiency in every batch of manufacturing. The manufacturers look forward ways to lower their production costs and boosts the production capacity which in turn aids in driving the consumption of high shear mixers.

Global High-shear Mixer Market: Drivers and Restraints

High shear mixers offer wide advantages over the traditional batch mixers such as propellers, turbines etc. These traditional mixers require long mixing time and issues such as variations in the batches and multiple transferring steps. The increasing demand for high shear rotors with various functional features aids in driving the global high shear mixer market. Also, the high shear mixers improve product quality and upgrade efficiencies which help manufacturers to reduce the R&D costs. The changing consumer demands and behaviour challenges the manufacturers to produce high-quality emulsions and solutions. The high shear mixers are the most versatile mixers which perform better size reduction, emulsification, and homogenisation for a variety of formulation mixes, thus boosts the global high-shear mixer market. The growth in the plastic industry propels the global high-shear mixer market, since the high molecular weight polymers are to be dealt effectively to product quality products. Furthermore, the increasing demand for reduction in energy consumption and batch times especially in pilot plants drives the global high-shear mixer market.

Request For Report Sample@ https://www.persistencemarketresearch.com/samples/15805

Global High-shear Mixer Market:  Region wise Outlook

The global high-shear mixer market is divided into seven regions, namely North America, Latin America, Asia Pacific excluding Japan (APEJ), Western Europe, Eastern Europe, Japan and the Middle East and Africa (MEA). The high-shear mixer market in North America is driven by the growth of pharmaceutical and chemical manufacturing companies. The market is consolidated with the presence of prominent global players such as Hayward Gordon, Charles Ross & Son Company etc. Also, the developments of acquisition, mergers and product development are prominent in the high-shear market in Western Europe region. For instance, in 2011, GEA Process Engineering Ltd acquired the IP rights of high-shear mixing technology from Limitech A/S, Denmark-based batch mixer manufacturer. This was to cater the high demand pre-prepared dairy foodstuff and personal care products. The high-shear mixer market in APEJ region is expected to grow at significant CAGR owing to the shift of manufacturing facilities in Asian countries since the labour costs are cheap. In Japan, the high-shear mixer market is expected to grow at moderate CAGR during the forecast period owing to the inflation, macro-economic factors and slow growth of GDP.

Global High-shear Mixer Market:  Key Players

Some of the prominent players identified in the global high-shear mixer market include:Silverson Machines Ltd,Hayward Gordon,Charles Ross & Son Company,GEA Process Engineering Ltd,Renders India Pvt Ltd.,Fujian South Highway Machinery Co., Ltd.,Jinhu Ginhong Machinery Co., Ltd,Nantong Hennly Machinery Equipment Co. Ltd,IKA-Werke GmbH & Co. KG.

Request For Report Table of Content (TOC): https://www.persistencemarketresearch.com/toc/15805

Reduction of raw material consumption due to more efficient dispersing

Whether in the Chemical, Pharmaceutical, Cosmetics or Food Industry, the costs for raw materials is permanently increasing all over the world and in all fields.

Manufacturing companies search for new processes and new possibilities to remain competitive and distinguish themselves from their competitors. Occasionally, they are successful by, for example, substituting expensive raw materials with cheaper ones.

Another possibility for savings is to reduce the raw materials consumed in production but, if quality is to be maintained, it is often necessary for processing steps to be modified or improved.

A large variety of products, such as lacquer and paint, glue and binders, baby food and beverages, detergents and shampoos, as well as drugs and creams are being produced based on a number of dispersions. A prevalent type of dispersion is the suspension, consisting of heterogeneous liquids with finely dispersed particles in it. The two components do not dissolve or combine chemically and will eventually sediment if left unattended.

For the production of suspensions, existing agglomerates and aggregates have to be crushed and reduced in size, distributed in a liquid, wetted and stabilised. A homogeneous distribution of these particles into all elements of the liquid volume is the target.

Dispersing (Latin - dispergere – to dissipate, to distribute) is mandatory for the quality of the suspension. In case powders (here the dispersed phase) are dispersed into a basic liquid (continuous phase), the complete and homogeneous wetting of the solids is the most important factor for the quality of the suspension.

A complete - respectively a colloidal - wetting of the raw materials very often provides the possibility to reduce the quantity of materials used in the process.

There are different technical solutions to disperse or to produce a suspension:  

1. Batch Disperser: Mixer and Stirrer, Dissolver and Rotor-Stator-Systems

Mixer and Stirrer consisting of a drive, a shaft with respective seals and a mixing or stirring element. The stirring or mixing element may be executed as a simple propeller or equipped with a stator inside of which the propeller rotates (Jetstream mixer). These systems only distribute the existing particles in the liquid; a milling of the agglomerates and aggregates is hardly affected, as almost no shear energy exists. These systems may be applied for dispersing of easy to wet, non-sticky and non-agglomerating raw materials and powders or to keep a suspension homogeneous.

The set-up of a dissolver is equal to the principal of the mixer and stirrer, but uses a toothed mixing disc instead for dispersing. This disc produces stronger impact effects. The processing aim in this case is to crush agglomerates and aggregates to achieve a finer suspension. The shear effect however is restricted and the shear gradient strongly depends on the viscosity of the liquid. The moment the liquid starts to rotate, the impact and shear effect is dramatically reduced.  

The function of the Rotor-Stator-System by construction depends on the narrow gap between rotor and stator. In general, both parts (the rotating and the static part) are equipped with toothed geometries. Due to the given geometries, the shear gradient is maintained constant and almost independent from the viscosity of the liquid.

In practice, the production of a suspension is sometimes quite difficult. All types of machines mentioned above, are installed directly into a vessel or lowered into the vessel by the means of a lift. Normally the basic liquid is filled into the vessel and the raw materials are added simply be pouring them onto the surface of the liquid. Powders have a rather large specific surface, in extreme cases (e.g. for fine pigments, Nano powders, or Silica Acids) it calculates to about 300.000 m²/kg of powder. In most production scenarios, several kgs of these powders are added directly onto the surface of the liquid. The liquid only has an area of a few square meters so it soon becomes obvious that there is an adverse relation between the surface of powder and the surface of liquid. The result is that individual particles will not be wetted, only the agglomerates and aggregates become roughly wetted.

The powder floats on top of the surface and an intensive mixing effect has to be applied to wet all the particles. When a dissolver is used, a Vortex builds up in the liquid and besides the powder air is brought into the product as well.

Very often, different raw materials have to be dispersed into a liquid, creating a high work load for the handling of the different packing systems such as bags, barrels and containers that have to be moved and emptied.

Many of these powders are sticky and most tend to form dust. Layers of crusts and agglomerates build up at the wall of the vessel and other equipment installed inside the vessel. These agglomerates in a later process are very difficult to destroy and require a lot of energy and time. The quality of the product suffers by a coarse defined dispersion and with the consequence of different quality from batch to batch. Because of the inefficient use of the raw materials much more raw materials than normally required to be added in order to achieve the desired effect. A part of the raw materials "disappear" as dust in the environment, exhaust systems and dust filter systems. In total, this results in high production and general cost.

Read more: Reduction of raw material consumption due to more efficient dispersing

Gel Making Reactors

 Mixing Vessels for Making Gel.

Gel making reactors / Mixing vessels are vessels having two types of mixing arrangements.

1)      High Shear mixing

2)      2) Anchor type impiller Mixer.

As these mixers are totally different type they can not be put on single agitator shaft. The High Shear Mixing is a high speed mixer and is inserted from the bottom of the tank. This position of the mixer makes it easy for maiontenance and also the required sfaft is very small. The Other Anchor type mixer is from the top and is a slow mixer. These two mixers can be used symulteneously to make the gel making process fast. We have manufactured these type of vessels upto 3000 liters capacity. In Stainless steel SS 304 and SS 316. The vessels are with Heating Jacket to maintain the Product Consistancy.

 High Shear mixing

 As these mixers are totally different type they cannot be put on single agitator shaft. The High Shear Mixing is a high speed mixer and is inserted from the bottom of the tank. This position of the mixer makes it easy for maintenance and also the required shaft is very small.

The advent of rotor/stator mixers revolutionized mixing technology. Imparting vigorous radial and axial flow patterns and intense shear, Umasons High Shear Mixers accomplish a variety of processing objectives including homogenization, emulsification, powder wet-out and deagglomeration.

Umasons High Shear Mixers are used in many industries, including the pharmaceutical, food, cosmetics, ink, adhesive, chemical and textile industries. For challenging performance, Umason also offers advanced rotor / stator configurations: Ultra High Shear Mixers capable of producing excellent emulsions and dispersing that often need to be processed on an expensive colloid machine or high pressure homogenizer.Available in batch and inline collections, many popular laboratory and production models are available in stock.

Anchor type impeller Mixer.

The Other Anchor type mixer is from the top and is a slow mixer. These two mixers can be used simultaneously to make the gel making process fast. Anchor impellers are specially used for very high flow, with viscosity ranging from 10 to 100 Pa.s, common polymer reaction and other processes in the food industry. Reactions are usually carried out under the laminar flow. Anchor impellers are also suitable for counterfeit plastic and thixotropic liquid. Aside from its importance in the chemical industry, there are a number of activities, which study anchor type impellers. The computer functions of these impellers are very limited and often show a basic grid as well as a horizontal measurement and shape of the vessel. This work introduces a detailed model of a stirred vessel using anchor impellers. It calculates three parts of the velocity in a two-dimensional grid. The simulation refers to the second flow, which is of particular interest because, under the laminar flow, it controls the heat transfer.

Contact Us

M/S. UMASONS STEELFAB PVT. LTD.

Head Office Address : 15 - A, MIDC Industrial Area, Near Railway Station, Aurangabad - 431 005, Maharashtra, India.

Mobile : + 91 - 93252 12661

Tel No. : + 91 - 240 - 2320979, 6455506

What is the difference between cosmetic emulsification, dispersion and blender equipment?

With the development of the beauty industry, the cosmetics manufacturing industry is developing rapidly, and the pursuit of cosmetics production equipment is getting higher and higher. The variety of cosmetic raw materials is becoming more and more abundant. For the processing and processing equipment of cosmetic raw materials, the use of dispersing machines, mixers and emulsifiers is a key link. Of course, with the support and attention of the state to the manufacturing industry and the rise of the cosmetics machinery national enterprise itself, the mixing and mixing equipment of cosmetic raw materials is more mature and intelligent!

According to the different needs of the processing of cosmetic raw materials, sometimes professional equipment is needed to achieve the mixing effect. Let's take a look at the common dispersion, stirring and emulsification. What is the difference between them?

1. Dispersing machine

The dispersing machine is mainly suitable for solid-liquid raw materials (especially raw materials with a large specific gravity of the powder), and to achieve a dispersion effect, through the auxiliary tools such as dispersing discs of the dispersing machine, the mechanical decomposition and dispersing action can be used to uniformly distribute the solid particles in the solution. Generally used in the production of materials with more powder.

2. Mixer

The mixer is suitable for solid and solvable body, the solid particles are mixed and mixed into the dissolvable liquid. The difference of equilibrium concentration and temperature often requires different stirring structure devices to achieve the stirring effect, such as: blade stirring, anchor stirring, etc. Generally used in cosmetics liquid washing products.

3, emulsifier

The emulsifier is a two-phase or multi-phase material that is incompatible with water and oil. The high-shear force of the rotor-stator system homogenizer mixes one phase of the material into another, which is incompatible with another phase material. To achieve high-efficiency emulsification, it is widely used in cosmetics creams, lotions and other products.

More information:http://www.yk-machinery.com

                           https://mixcore.aliexpress.com/store/4987268

Homogenizers, agitators, magnetic mixers, rotor-stator mixers, rotor-stator mixer stirrers, and mixers are all part of SPM Process Systems, which is an Indian manufacturer, supplier, and exporter.