Mitsubishi Chemical Advanced Company
Mitsubishi Chemical Advanced Materials’ strategy is based on the broadest portfolio of polymer-based materials and polymer conversion technologies to provide the best solution to customers. Inspired by the challenges of design engineers in various industries we continuously work to rejuvenate and expand our capabilities by developing new materials and improved processes. In this context, innovation is seen not only as a key driver for growth but also as a core competency allowing us to form collaborative partnerships with our customers.
In many cases, it is the creativity in selecting existing materials in conjunction with existing processes that leads to excellent solutions. If the existing offerings don’t suffice Mitsubishi Chemical Advanced Materials is using its global network of internal and external experts to find the best answer – may it be new material, a new process, or a combination of the two. Usually, this happens in close development collaborations with key customers. Consequently, R&D activities are closely aligned with market requirements. The emphasis on good Research as an integral part of Mitsubishi Chemical Advanced Materials’ business model has inspired the creation of the Mitsubishi Chemical Advanced Materials Award.
Less focused on operational business challenges, this award supports Mitsubishi Chemical Advanced Materials’ ability to foster its network in academia and to stay in tune with the latest developments that might become valuable to our customers in the future. In addition to our academic network, we have unprecedented access to the development resources of Mitsubishi. Not being focused on a few specific materials, we have the freedom to choose the best option for the application. This makes Mitsubishi Chemical Advanced Materials not only an independent consultant of our customers but also an important partner for suppliers of resins and special additives.
What are the products of Mitsubishi Advanced Chemicals Company?
Engineering plastics
. Standard materials such as polyethylene, polypropylene, and polyvinyl chloride with the ability to be placed at temperatures below 80 degrees Celsius:
In this area, we can mention the Sanalite brand, which is a suitable material for boards on which materials can be crushed. And they are very resistant to knives. It can also be used for a wide range of purposes, from home use to food preparation in the commercial realm or even the production of packaging. Polyethylenes are considered an integral part of the polyolefin production line in this company and this material has more flexibility compared to heavy polyethylenes therefore it is a suitable option for making different types of prostheses. Heavy-duty polyethylenes are also used to produce a variety of products in a variety of fields, including impact resistance, tensile strength, low adsorption, moisture, and chemical abrasion resistance.
. Engineering materials that can withstand temperatures between 80 and 160 degrees Celsius:
Stables are one of the items that fall into this category and have high strength and power, in addition to dimensional stability and ease of use, and construction by Cars is also known as their advantage. Since they are a kind of semi-crystalline material, it can be said that their wear coefficient is low and they have good resistance to decay. One of the mechanical grades of polycarbonate is also known as a type of shapeless and transparent thermoplastic that has a very high impact strength and its elastic coefficient is high and is known as Altron.
. Advanced materials that have the necessary resistance to exposure to temperatures between 160 and 220 degrees Celsius:
Polysulfone under the brand name Sultron is a type of engineering thermoplastic with very high performance and resistance to heat and a semi-transparent state, and in addition, it can be mentioned Its resistance to chemical, electrical and mechanical substances is much higher than polycarbonate. Ketone polyester, known as Ketron, is very resistant to water and chemicals, and can also be used at much higher temperatures. Ketone Hezar Polyester has a high resistance to abrasion and steam, while a variety of carbon-reinforced materials can have very good wear and damage capabilities.
. Advanced materials that have the necessary resistance to exposure to temperatures between 160 and 220 degrees Celsius:
Polysulfone under the brand name Sultron is a type of engineering thermoplastic with very high performance and resistance to heat and a semi-transparent state, and in addition, it can be mentioned Its resistance to chemical, electrical and mechanical substances is much higher than polycarbonate. Ketone polyester, known as Ketron, is very resistant to water and chemicals, and can also be used at much higher temperatures. Ketone Hezar Polyester has a high resistance to abrasion and steam, while a variety of carbon-reinforced materials can have very good wear and damage capabilities.
. Materials with very high heat resistance, such as temperatures above 220 ° C:
Durarton brand polyamide has very high-performance capabilities and can be used to produce a variety of products, in addition to the ability to produce it with There are also methods of foraminiferan, injection molding, or compression.
. Coating Solutions:
Mitsubishi Chemicals Company manufactures a variety of solutions for coating engineering plastics, making these products safer, faster, and easier to use, and improving their high-volume transport. Our products are placed in a variety of tanks or special packages for transportation and trucks, and almost all products that have a large volume or those that are very difficult to transport can improve the properties of this category of coating solutions. Take advantage.
. Types of prostheses under the brand MEDITECH:
Mitsubishi Chemical Company has developed a variety of prostheses from thermoplastic materials for short and long-term exposure to human tissues. We are one of the leading leaders in the production of implant products and we have produced different products for the buttocks, knees, shoulders, and spine. For example, we can name different types of polymer implants, because, for more than 30 years, the company has made a variety of orthopedic implants with excellent grades of polyethylene and very heavy polyethylene. Because these products have better mechanical and physical properties, cleanliness, and integrity, they have been selected as very suitable materials in articulated areas and help many people in the world to experience a normal life again. In addition, this powerful company can produce a variety of disposable products in very high volumes, and this is done using injection molding, and it is also possible to advise customers about their projects. A distinct strength in this area is the ability and expertise of the company in product development, which ultimately manifests itself in the field of development-oriented processes. In addition, the company has a variety of up-to-date and high-consumption production equipment. Doctors, hospitals, medical laboratories, and research equipment around the world use a variety of plastic tools and equipment, and the production of such equipment by health and quality requirements requires a great deal of technical knowledge and capability.
. Production of all kinds of plastic products using machines:
For more than 50 hours, the mentioned advanced company has been developing and producing all kinds of high-performance and quality plastics using machines to produce highly advanced products. Our technology centers always consider the needs of customers as the priority, and we start the design and machine building stages from the initial design or a prototype from the beginning and provide you with very stable and high-consumption parts for long-term needs. We have a strong commitment to maintaining all the requirements and quality items for our technology-driven customers, such as maintaining cleanliness, marking, compliance with certificates and manufactured products, packaging, and industrial features. All products manufactured by this powerful company are used in various industries such as aerospace and defense industry, renewable energy, architecture, automotive, home construction, chemical processing, oil and gas, food and beverage, equipment Industrial, prostheses and medical products, semiconductor and electronic products, applied products in the field of sports and transportation, some of which we will discuss in this section.
. Building & Construction:
The thermoplastic composite materials developed by Mitsubishi Chemical Advanced Materials are finding increasing use in the construction industry because they are in many respects markedly superior to wood, the classic material. They are above all light, weather-insensitive, dimensionally stable, and non-rotting.
Mitsubishi Chemical Advanced Materials has therefore developed MultiQ, a solid thermoplastic composite panel, by resorting to two proven polypropylene-based materials. Used as formwork panels or scaffold planks, they boost economic efficiency on the construction site thanks to their long service life.
The innovative sandwich board has a core made of SymaLITE, while the cover layers consist of high-strength, thin and UV-resistant GMTex. In the production of MultiQ, the two sheet-like semi-finished products are welded together into 9 to 22 mm thick sandwich panels through the application of heat. The surface of the new composite is homogeneous and smooth. The special combination of multi-directional glass fibers in the core and cover layer fibers oriented in the direction of tension and compression yields the desired high material stiffness with a low weight per unit area.
The MultiQ product line is a modular system. The composition and thickness of the fiber composite panels offer plenty of scope for variation and permit the design to customer specification. Mitsubishi Chemical Advanced Materials makes it possible to have panels produced in different colors and sizes up to a maximum size of 2.4 x 3.5 m.
. Aerospace & Defense:
Market requirements call for weight reduction to increase fuel efficiency and lower greenhouse gas emissions. High strength-to-weight materials that are resistant to industry chemicals, offer temperature and wear resistance, and can be efficiently manufactured are part of the Advanced Engineered and General Engineered material portfolio that Mitsubishi Chemical Advanced Materials offers to this market.
Our technical service and development teams can help guide material selection from our broad product portfolio to ensure the best and most cost-effective solution is chosen for your application.
Your Advantages
Lower weight components that allow greater payload while improving fuel efficiency
No galvanic corrosion when in contact with carbon fiber composites
Reduced friction with little or no lubrication on wear surfaces
High wear resistance for other polymers
Thermo-isolation of critical electronic components and other structures
Chemical resistance to all common aircraft fluids
Cost-efficient solutions when replacing Aluminum, Titanium, and other metals