Inside the Site"cost" Our last page; Total 3 found


CATAGORY

Sensan Plastic and packaging, PET, PP, PE, PVC, PET, manufacturing, cans, bottles, price, cans, plastic, cap, cap, fısfıs, jars, valve manufacturing and sales services. | PET, PP, PE, PVC, PET, manufacturing, cans, bottles, plastic bottles, plastic jars, plastic caps, Istanbul, prices, economic, injection molding, blow molding, pad printing, pharmaceuticals, fabric softener, cleaning, cost, price, packaging, plastic Packaging, Industrial Design, design, design, blow mold, inflate mold, injection mold, injection mold, UR, product, aesthetic, plastic parts, parts design, industrial, buckets, polishing, color tubes, pesticides, polish bottles, cans
Click for details

NEWS

About Plastic Packaging

About Plastic Packaging

Plastic
Plastic Polymer-based, be processed in liquid form and organic matter formed after hardening. More oil is produced from raw materials of plastics. Small molecule chemical means combined with the monomers are polymerised and this is the result of large molecular polymers occurs. Polymer additives are added to many plastics suitable for the purpose is achieved. Plastic easy workability, color, brightness, suitable for automatic production of, the plastic most

Encyclopedic knowledge about plastic
Plastic Polymer-based, be processed in liquid form and organic matter formed after hardening. More oil is produced from raw materials of plastics. Small molecule chemical means combined with the monomers are polymerised and this is the result of large molecular polymers occurs. Polymer additives are added to many plastics suitable for the purpose is achieved.

Plastic easy workability, color, brightness, suitable for automatic production of, the plastic used in various fields has led to the possibility. Plastic also can be very cheap goods. Strength of climatic conditions are better than metal. Phone from the body and hands, utensils, floor covering, bottles, furniture, industrial tools and many other materials are manufactured from plastic.

Emergence of plastic: Very Sella Since ancient times, was used as resin materials such as plastic. Americans in 1868 as a synthetic plastic made John W. By Hyatt, cellulose nitrate was obtained by mixing with camphor. This plastic material billiard balls, buttons, combs were made. Yet in the year 1909 bakelite American explorers, known as Leo Baekeland Ho phenol formaldehyde polymer found. Du Pont company in 1935 from the nylon polymers find a great new epoch. In the meantime, Polyvinyl chloride (PVC) and acrylic plastics were made and have been used. Du Pont Company in the year 1938 finds the teflon will replace the nearly metal features. Under high pressure steam uncovered Tetrafloretilen white powder obtained from the 800 ° C temperature resistant Teflon and is very durable and flexible to use the expanded area. Max Planck Institute in Germany in 1950 in the low pressure under the researchers named Karl Zevger easily obtained and has produced high-strength polyethylene plastic.

Classification of Plastics: Plastics are divided into three main classes:

1. Cellulosic plastics,

2. Of course, plastics,

3. Synthetic resin plastics.

Three main classes of plastics also are divided into different classes between them. Between cellulosic plastic cellulose acetate, cellulose ester asetobütirat, cellulose esters can be considered. Casein plastics, natural and plastic, was manufactured from milk, also called for süttaşı. Synthetic resin plastics as thermoplastic and thermoset plastics are the two groups.

Be made of plastic material to be formed at a time is heated to soften the time (thermoplastics) and hardens after being heated once again softened even without heating (Thermosetting) is divided into two classes.

Acrylonitrile-bütadiyenstiren into thermoplastics (ABS) plastics, acetal plastics, acrylic plastics, cellulose plastics, florplastikleri, Polyethylenes, polypropylenes, Polyvinyl chloride enter. Thermoset plastics into the amino plastics, epoxy resins, phenolic resins, polyurethanes enters.

Plastics additives: Plastic main material is a polymer. To be shaped and painted to burn plastic, oil, for the purpose of increasing resistance to moisture and is attended by various additives. To increase the strength of most plastic glass fiber is used. To increase the vibration resistance, plastics into the rubber, and is attended by particles. To reduce the cost of plastic into the chip mamülün powder, mica and asbestos dust is mixed. Heat and chemical resistance of plastics to chemical additives also are provided. The hardness is set with plastic dioktilftalat and similar compounds. Chlorine and bromine, with plastic side will not feature win. Process the pigment coloring plastics and paints (pigments) and dyes are made. For example, titanium dioxide, plastics can be used to give white color.

Plastic forming methods: plastic shapes to, heating and pressing molds through various methods is given. Plastic materials for this purpose automatic looms were manufactured. Plastic molding is done in three main method. These injection molding, transfer molding and squeezing-compression (ekstrusyon) is a method. Apart from these methods, there are also many other special forming procedures.

Injection dump: the most widely used method of shaping thermoplastics are injection procedures. 3 mm-sized cubes or granules thermoplastics cylinder from a reservoir enters the melting box. Here, hydraulic pistons with plastic being melted with the electric heater is removed from the mold. All these operations are carried out automatically the injection machines.

Transfer Molding: Injection molding procedures to increase the speed of production in large amounts in the same genus containing male and female molds are used shape. This type of thermoset plastics, especially applies to the casting. Spills onto the female mold plastics, from finding more time to solidify a heated molding pressed men.

Crimping-compression molding: injection molding plastic mold with the hydraulic piston to push through the process of this method as well as meat machines can perform endless spiral gear. Electrically heated to melt the plastic granules passes through. Toothpaste with liquid plastic worm is transferred to the mold as bored. Mold cooling process can be done to obtain the shaped plastic material.

Blowing molding: hollow bottle-shaped plastics, plastic materials with compressed air into the mold to obtain inflated. Blowing molding method, large-sized containers, barrels, is suitable for the manufacture of automobile fuel tank.

Plastic coating: Liquefied heated plastic into the metal material is removed branch inexpensive, decorative products are obtained.

Linoleum production: Plastic material is passed between rollers takes the form of spread sheets. Tablecloths, shower curtains are made from this method.

Problems with Plastic: Plastic materials are used again after being melted into the new plastic material to join at a rate of 25 per cent by state can be available to cast again. For this type of resistance will decrease only job is used in plastics easier. In this way, the cost price of plastic materials can be reduced. Thermosetting plastics can not be used again being melted.

Plastic materials used to package the food, is a very sensitive matter who is requesting. Small molecules of plastic, preserved in the alcohol, acidic foods zehirliyebilir.

Plastic materials, porcelain, glass, metal materials is quite high compared to the rate of radioactive substances. Plastic materials have been stored in the field of staff pay attention to these matters will not be running. Plastic materials that cause environmental pollution as the most important matter is acceptable.
What is Polypropylene?

What is Polypropylene?

Polypropylene is a thermoplastic polymer with a wide range of applications, from parts used in the automotive industry to textile and food packaging. Polypropylene obtained by polymerizing monomer propylene is extremely resistant to chemical solvents (acids and bases).
History of Polypropylene
The propylene was polymerized for the first time by Giulio Natta and German chemist Karl Rehn in March 1954 and turned into a crystalline isotactic polymer. Thanks to this discovery, the Italian company Motecatini has been carrying out large-scale commercial production of isotactic propylene since 1957. Syndiotactic polypropylene was also synthesized for the first time by Natta and her assistants.
What are the Physical Properties of Polypropylene?
Propylene; It is a hard, opaque and solid material. It has a low specific gravity, can float in water.

The crystal structure of the most common commercial polypropylene has a level between low density polyethylene (LDPE) and high density polyethylene (HDPE). Young's modulus (elasticity module) is also moderate (It has good dimensional stability in high temperature and humidity conditions.) However, it is less hard than LDPE and much less brittle than HDPE. This allows polypropylene to be used in place of engineering plastics such as ABS.

What are the Chemical Properties of Polypropylene?
Polypropylene shows very good resistance to fatigue. The commercial usage area is quite wide with its low cost. It has very good impact resistance. It has a low coefficient of friction and provides very good electrical insulation. It has good chemical resistance. It is suitable for all thermoplastic processing processes. The melting temperature of polypropylene is between 130 and 171 ° C.

However, despite all its positive features, it has disadvantages. UV ray resistance is low, it shows high thermal expansion. It is difficult to paint and coat. It has low resistance to external weather conditions. It is open to oxidation. It is flammable and interacts with solvents containing chlorine.

In general, the technical properties of polypropylene can be listed as follows:

Low specific gravity,
High chemical resistance,
High electrical strength,
High tensile strength,
Low abrasion resistance,
Resistance to low atmospheric effects,
Can be combined with resources,
It is suitable for food contact.
Polypropylene is the second most important plastic expected to exceed US $ 145 billion in revenue by 2019. Demand for this material has grown by approximately 4.4% annually between 2004 and 2012.

To Top