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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
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PET Preform, PET Jar, PET Bottle, PET Cover and PET Packaging Manufacturer. | plastic pet bottle manufacture, plastic pet jar, pet blow molding manufacture, pet manufacturers, pet bottle manufacture, pet, bottle, shampoo, cosmetic pet, pharmaceutical pet, plastic pet, plastic pet bottle prices, pet jar istoç, pet preform, plastic bottle isto , istanbul pet bottle manufacturers, preform prices, plastic pet jars, tahtakale plastic bottle
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Pharmaceutical and Cosmetic Packaging manufacturing with optional raw materials and design application | cosmetic packaging, pharmaceutical packaging, bottle, cream, lotion, shampoo, perfume, plastic, pet, production, contract manufacturing, manufacturing, pvc medicine packaging, istoç cosmetic packaging, cosmetic packaging manufacture, shampoo packaging, pet medicine bottle, plastic medicine bottles, cream box manufacturers
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Plastic Container Manufacturing | Plastic Bucket | Design and manufacturing with the desired raw material suitable for recycling. | kg jerrycan, cans of cologne, large packaging, plastic jerrycan manufacture, jerrycan manufacturer, plastic bottle istoç, plastic bottle manufacturers, tahtakale plastic bottle, pet jar istoç, pet bottle manufacturers istanbul, days plastic
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Laundry Bottle Packaging Manufacturing | Design and manufacturing with the desired raw material suitable for recycling. | bleach canister, jerrycan, bottle, jerrycan packaging, canister manufacture, bottle manufacture, plastic cleaning bottles, plastic bottle, detergent bottle manufacturers, plastic jerrycan packaging, plastic bottle 50ml, pp plastic bottle, retail plastic bottle, medicine plastic bottle, bleach packing
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Manufacture of plastic packaging of all sizes and sizes for general cleaning products. | detergent bottles, glass cleaning, general cleaning, liquid soap bottles, pet softener bottles, shower gel, jars, baby products, hotel shampoos, cologne bottles, round bottles, food bottles, bottle, detergent bottle, squeegee bottle, general cleaning bottle, cleaning bottle, dish bottle, hand soap bottle
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Plastic Softener Bottle Packaging Manufacturing | Design and manufacturing with the desired raw material suitable for recycling. | Bottle, bottle with handle, canister with handle, liter canister, canister manufacture, laundry detergent bottle, laundry detergent packaging, detergent packaging manufacture, industrial packaging manufacture
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Production of pet packaging for your cosmetic pet products | plastic cosmetic packaging, cosmetic packaging, cosmetic bottle, cosmetic packaging manufacture of plastic cosmetic products, cosmetic plastic, Manufacture of cosmetic PET, PET packaging production
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General Cleaning PET Packaging | Manufacturer of PET Preform, Plastic Jar, Plastic Bottle, Plastic Lid and Plastic Packaging. | plastic cleaning containers, cleaning package, cleaning bottles, cleaning packaging manufacturing, plastic cleaning products, cleaning plastic, general cleaning PET manufacturing, PET packaging production
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CONTENT

General Cleaning PET Packaging
About Us

Sensan Plastic & Mould Industry. and Co.Ltd. Has been operating in the field of plastic packaging products. With over 30 years of experience and quality of employment of personnel in the packaging industry has a high level of production quality. To follow the ever-changing technological and production capabilities succeeded rarely integrated into organizations.

Sensan Plastic Cosmetic, chemical and pharmaceutical sector. Also carries out its own mold manufacturing and mold in the revision process. Is addressed to the needs of raw material imports.

Our company, 10 ml. To 12 LT. Up to HDPE, LDPE, PP, PET raw materials manufactured in various sizes and designs, bottles, jars, cans, and the cover on these products, manufactures stoppers and other accessories.

I love the production quality and customer satisfaction as a principle Sensan plastic, made ​​the production in the forefront to deliver products to customers in the shortest amount of time.


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General Cleaning PET Packaging
Production of Pet

PET Preform, PET jar or bottle in a previous state of swelling. First of all raw materials, special PET PET granules are dried to a humidity of 0001% after drying machines, injection molding machine, PET center is transferred to the silos, where heated to 285 ° C. After thawing, the latest technology with a fully computer controlled injection molding machines is injected into the active water-cooled injection molds. Precision molds 5 microns. Here to cool completely hands-free robot technology and preforms are removed from the mold. Us make the most efficient injection molding machines settings for the latest technology, we do in the shortest possible cycle time and the polymer molecules, the smallest level of pressure loss and acetaldehyde production by keeping to a minimum keeps IV. Preforms produced fully automatic blow molding machines, lined up a special in-house transport treylerlarına taken or sold to the customer is placed in a special octabin'lere.


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General Cleaning PET Packaging
Production of Pet

Fully automatic machines are fully automatic latest technology in PET bottles is inflated. These machines are fully automated, high quality and are capable of very quick mold change. In these machines, infrared ovens, after being heated preforms regional pattern of active water-cooled fall and 40 bar high pressure blowing air and inflate. With our experience in the packaging form and R-Ge'miz identify the most suitable temperature of the preform, the expected strength of the product, allowing the weight of the jar in PET packaging are able to achieve excellent quality throughout the distribution of appropriately. Jars manufactured after quality control and packaging conveyors, passing by the controllers at the request of the customer by the officials as a cover or no cover insertion and LDPE bags are placed on pallets. Performed based on other packaging alternatives, the customer's wishes.


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General Cleaning PET Packaging
Glossary of Plastic Manufacturing
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General Cleaning PET Packaging
Glossary of Plastic Manufacturing

Bottles parizon from inflated to a smaller capacity than it getirilir.sonuç shape, wall thickness is used more for larger bottles and plastic bottles because a smaller shape.
 


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General Cleaning PET Packaging
Glossary of Plastic Manufacturing

Opening in the top of the bottle or jar.
 


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General Cleaning PET Packaging
Glossary of Plastic Manufacturing

Applied to the surface of the plastic bottle or a bottle kimyasaldır.görev is mixed with the material forming the surface of the bottle and the bottle draws powder surface against the accumulation of electrostatic charge is to make it less sensitive to dust


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General Cleaning PET Packaging
Glossary of Plastic Manufacturing

Bottle uninterrupted protruding screw to hold the screw cap in the neck
 


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General Cleaning PET Packaging
Glossary of Plastic Manufacturing

Constitute the opening of a bottle, and hosting special cover of The plastic, sit the gear cover, is hosting part of the nail and seal or bearing surface


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General Cleaning PET Packaging
Glossary of Plastic Manufacturing

Reduced to form the finish portion of the bottle cross-section.


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General Cleaning PET Packaging
Glossary of Plastic Manufacturing

A bottle and jar lid or cork that keeps the location and shape of boyutu.alph dial-continuous threaded neck to open doors and Hinge-Guard neck first digits neck diameter in yapar.özellik, the second figure gear (screw) is the size.
 


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General Cleaning PET Packaging
Glossary of Plastic Manufacturing

It forms the finish portion of the bottle of the mold equipment.


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General Cleaning PET Packaging
Glossary of Plastic Manufacturing

Narrow-necked bottle of Alpha 20mm Special bitişd the start, 28mm continuous screw-neck bottles off until çeşitlernir.d best liquids and lotions, that are suitable for pourable and pumpable products.


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General Cleaning PET Packaging
Glossary of Plastic Manufacturing

The mold on the bottle joins the line at the end of two halves


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General Cleaning PET Packaging
Glossary of Plastic Manufacturing

A bottle finish that allows the dripping undercut lip surface have uniform bulk.
 


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General Cleaning PET Packaging
Glossary of Plastic Manufacturing

The thickness of the bottle, usually produces some heavy-wall model ölçülür.alph bottles for improved strength and pressure along the side walls


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General Cleaning PET Packaging
Glossary of Plastic Manufacturing

Tag may be glued flat portion of the bottle body.


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General Cleaning PET Packaging
Glossary of Plastic Manufacturing

Field of each piece being connected by a two-part hinge closure sistemi.b part of the bottle, while the threaded connecting tube or jar provides the other sealing mechanism.
 


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General Cleaning PET Packaging
Glossary of Plastic Manufacturing

(Also sometimes called hinge-shield)
Flexible hinge kullanılır.tüketici to combine the flick crested cover part of the main body of the J-cover with closure, closing the bottom of the upper part of the valve that connects the plastic rope removing açar.b type is also proof that the bottle was already open.


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General Cleaning PET Packaging
Glossary of Plastic Manufacturing

The bottle neck in the rest boşluk.b gap product between the cover and the level reached by the contents after packaging for heating or bırakılır.kaf space against expansion due to another action, can also be used for corrugated cardboard which is filled with plastic bottles and jars for shipping.
 


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General Cleaning PET Packaging
Glossary of Plastic Manufacturing

Normal volume amount of space in the bottle cap to the amount of a product specified (usually cc mL, measured in ounces or grams) .This standard bottle is filled to capacity usually refers to content shoulder height.
 


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General Cleaning PET Packaging
Glossary of Plastic Manufacturing

Embossed on the bottle bottom (recessed) are written, the filling of the bottles and provide ease of alignment
 


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General Cleaning PET Packaging
Glossary of Plastic Manufacturing

To be inflated into a bottle or other form to be placed in high density polyethylene extruded hot plastic tube


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General Cleaning PET Packaging
Glossary of Plastic Manufacturing

Polymerized lactic acid in Polylacti, manufactured by natureworks® corn-based plastic container mold into bring less energy requiring a maddedir.çok variety of bottles, containers, trays, films and girebilir.pl to manufacture other packaging forms, than 68% of other plastid It uses less fossil fuel and is the world's first greenhouse-gas-neutral polymer.
 


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GALLERY

NEWS

About Polietilen (PE)

About Polietilen (PE)

Polyethylene is one of thermoplastic polymer and the oldest family initially showed only low-density development and generating high-density, linear medium density polyethylene to three new species were added to the family.

Polyethylene is widely used today rather. Addition of new species, namely improvement of polyethylene from toys, household goods up to the many bags of cans are used in the field.

Durability of polyethylene, strong variation, with the advantage of easy workability and dielectric properties are used as very common nowadays.

1. ETHYLENE

Ethylene; Low and High Density Polyethylene and Ethylene Oxide vinyl chloride mono er hand for the Pure Propylene, Polypropylene plant, Normal Propylene; acrylonitrile plant, raw gas and hydrogen in the Aromatics Plant Oil kullanılmaktadır.Aromatik for Carbon Black in hand, and Butadiene Butane mixture with C

2. POLYETHYLENE OF HISTORY

Polymerisation reaction of ethylene, chemical products company in 1930, Imperial Chemical Industries 7ngiliz chance at found. But in the beginning, about 2000 occur under barlık very high pressures of these reactions can be easily applied technology to make the required years. Before long, mechanical and electrical properties to become aware of the polyethylene, began to be used for many different applications. Then, 1950 in li chemist K. Ziegler, under low pressure has developed a polymer reaction update. This method 1970's life in all types of expanded polyethylene, so that date from polyethylene, the world-wide has become the most widely used plastics. Garbage bags, dating back to the electrical insulation was used in a wide variety of areas.

3. POLYETHYLENE MATERIALS

Polyethylene by white, semi-permeable, and highly durable polymer that can be softened. Sold on the market, especially the transparent one. Transparency relates to the degree of intensity. As density increases, the transparency increases. According to the intensity in the market for polyethylene, low density polyethylene (LDPE), linear low density polyethylene (LLDPE), medium density polyethylene (OYPE) and high density polyethylene (HDPE). In each of the four types of polyethylene and ethylene monomer, polymer molecules of different structures are emerging. Polymer molecules are composed of the chain molecules shaped macro provides a variety of different branching of the polyethylene case. For example, LLDPE at no branch will be less, HDPE 'a little bit more, OYPE at is greater. LDPE at branch level is maximum. Polymer properties that one is long or short Dal etkiler.Yoğunluk hardness and strength increases, so transparency increases, the softening temperature increases. This type of liquid to gas and also becomes difficult to affect.

Polyethylene is a polymer of participation. Ethylene, polymer and becomes a catalyst and polyethylene polimerlesmeyi initiator occurs. NCH

4. BASIC PROPERTIES OF POLYETHYLENE MATERIAL

• Lightness and Ease of Use

Materials and furnishings during syllogism ease of mobility, an important advantage compared to alternative materials.

• Flexibility

Resistance to ground movement, especially in infrastructure work in earthquake zones should be taken into account is the most important issues. In 1999 after an earthquake in our country yasananbüyük "natural gas service lines" outside the lines all the infrastructure was damaged. This is because only the natural gas pipeline was to have been decorated with polyethylene pipes. The renovation work after the earthquake in this area all 7ller Bank of drinking water infrastructure using pipes made of polyethylene PE100.

• Good Source Properties

Especially combined with electro-fusion or received resource supply points in PE pipeline is extremely robust tool, tests of the source point in building a more robust seamless pipe regions indicate.

• Durability

• Strength

• joints under pressure and breaking out of the lack of

Excellent source of properties joints out / are preventing rupture or leak.

• Crazing Resistance of Kars to

• Zero corrosion

• Chemical Resistance Impact of the Kars

PE materials with different chemical resistance against the "Project and Technical-Chemicals" section are given.

• low friction

5. Make the INGREDIENTS FOR GOOD SOLID POLYETHYLENE of

GOOD properties of polyethylene make some effects and resistance to increase resistance against being melted down under pressure by the method of mixing chemicals into polyethylene is added.

5.1. Oxidation PREVENTIVES

This type of chemical structure is generally fent as primary and secondary antioxidant is divided into two groups. In other words, radical extinguishers Primary oksidantlar polyethylene macromolecules during the heating and the resulting fragmentation of the radicals are neutralized, prevents proliferation. Secondary antioxidants in an oxygenated environment degradation of the polyethylene formed with parts and hidrosiperoksitleri More prevents decay. These two long-term degradation of polyethylene oksidantlar ensures against resistant.

5.2. UV STABILITY PROVIDERS

Solar ultraviolet light cut all kinds of carbon - carbon bond, and this will impact causes bond breaking weaken over time. This is to move to the front of the sun into the effect of polyethylene polyethylene chemical substances that are placed before absorption. These chemicals, UV absorber and UV to quencher is collected in two groups.

5.3. KAY AND BLOCK PREVENTIVES Builder

Slider as fatty acids and amines, as a preventive BLOCK 90% of inorganic compounds containing silicon dioxide on are used. Contribution of grain size distribution of preventive BLOCKS and oil absorption of matter is very important. Slider is used in conjunction with blocks fat absorption is important in preventive.

6. TECHNIQUES OF OPERATION OF POLYETHYLENE

Polyethylene plastic processing industry, the materials are the most common processing area.

• Film extrusion

• metal extrusion coating of paper

• Blow molding

• Rotational molding hands

• Injection molding

• Powder coatings

• Wire and cable is manufactured

• Pipe hose manufacturing

• Foam film manufacturing

• Masterbeç manufacturing

7. LOW DENSITY POLYETHYLENE

7.1. PRODUCTION TECHNOLOGY

In an autoclave or tubular LDPE tubular reactor, ethylene monomerlerinin 1200 to 3000 atm pressure and 130 to 350 ° C temperature, the organic peroxide is obtained with the help of polimerizasyonundan. O as catalyst in high pressure process

7.2. LDPE OF PRODUCTION PROCESS

High-pressure process for producing LDPE and peroxide and oxygen is used kabbalists. Figure 1 'LDPE' s production process can be seen. Polyethylene required to produce pure ethylene, pumps 150 MPa with the help of a pressing 190 º C in the tubular reactor is fed. At the same time the reactor is done to add to the catalyst. A reaction occurs in solution. Here comes the mixture separatörüne high pressure. Here, as low pressure polyethylene ethylene reactions have suffered is being separatörüne way, do not react to be fed back into the system before ethylene compressor, then is sent to the tubular reactor. separatöründen low pressure resulting product is fed ekstrudera. The products Ekstruderda mold, is cooled after kurutular ago.

7.3. LDPE OF PROPERTIES

Specific Weight 0.91 to 0.93 g / cm

4 'lerde synthetic rubber plant and also to foreign markets for the Tupras Yarımca verilmektedir.2 = CH2 (CH2 - CH2) n (Catalysts O2, temperature, pressure) of carbon in the polyethylene chain trans tab düzenlenmiştir. Polyethylene, a solvent-soluble and is cooled and crystallized single - crystals are obtained. Polymer chain determines the degree of branch if no crystal. Molecules in the crystal structure at Dal usually is more than you. Increases in polymer crystallinity increases hardness, mechanical and chemical properties will recover and increase resistance to liquid and gas. Melting index is inversely proportional to molecular weight. HDPE 'hardness and durability of the more leptin, melting flow index, or more düşüktür.2 peroxide kullanılır.3
Elasticity module from 0.1 to 0.26

Melting Point ° C from 98 to 120

Resistance Force 4.1 to 1.6

7.4. USE AREAS

LDPE;

• Agır service bags

• Greenhouse cover

• Packaging film

• Cable for cases

• Household goods, toys

• Pipe, hose, tube, bottle, cloth and metal coatings, rotations, molding materials

• All kinds of stress and shrink film

• Bags, napkin in the field for the plastic bag is used.

7.5. LDPE CONSUMPTION

Extrusion coating and film applications with LDPE LLDPE 's better is being used by mixing LDPE processability obtained due' eat a little reduction in the demand is observed.

Extrusion coating, blow molding and coating, wire and cable coatings used in the traditional market, such as LDPE, LLDPE with high process capability and clarity of resistance to this market has more to enter. Final product distribution of consumption in Figure 3 'is mis te data.

LDPE basis for field use, application and film forming packaging sector% of consumption is a 74'lük. Polyethylene film industry will continue to grow and the demand for LLDPE 's use of LDPE is mixed with will support this growth.

8. HIGH DENSITY POLYETHYLENE

High-density polyethylene to break, to break and parts of them as being lost resistance against high temperature and pressure to mold is needed.

8.1. PRODUCTION TECHNOLOGY

HDPE, titanium tetrachloride catalysts (Ziegler - Nata catalyst) and organometallic catalyst with the help of 10 to 20 atm pressure and 70 - 80 ° C temperature to obtain the results of ethylene polymerization. HDPE, low pressure in the working processes are manufactured. HDPE, has a branched structure.

8.2. HDPE OF PRODUCTION PROCESS

Low-pressure process to produce HDPE and ethylene as feed supply must be made with komonomer. Figure 2 at low pressure in the HDPE production process can be seen. Union Carbide's Unipol process is used. Pure ethylene with 1 - komonomeri liquid butane is fed to the reactor bed. At the same time the reactor is fed to the catalyst. Reactor at 100 º C at 690 kPa pressure from 2100 kPa 'interests. Not react in the fluid bed reactor with ethylene ago compressor suitable temperature and then pressed and cooled to come back to whether the system is fed. Reacting the resulting gas from the reactor product gas - the lock chamber will be installed on the heels. Here comes the product separator. Separators, products to be stored will be cleaned with nitrogen. The mean duration of stay of polymer in the reactor 3 to 5 are sold.

8.3. HDPE OF PROPERTIES

Specific Gravity 0.94 to 0.97 g / cm

3
Modules of elasticity from 0.41 to 1.24

Melting Point ° C 127 to 137

Based on Force 21 to 38

8.4. USE AREAS

HDPE;

• Household goods, toys

• Packaging film

• Pipes (rigid pipes, detergent and cosmetic bottle (opaque)), water, gas cans to

• Sheets, paper, fabric and metal coating materials in the rotational molding

• Vest type bags, plastic bags, Laminating, File bags

• Pressure water pipe, gas and sewerage

• Water distribution, sewerage, irrigation pipes in the areas of distribution network is used.

8.5. HDPE CONSUMPTION

The largest development in the technology of HDPE muti-stage reactors durability and is manufactured using a bimodal HMW HDPE developing at has. This type of film and blow molding applications to receive a share of LDPE and LLDPE market has been highly successful. Figure 4 Distribution of the final product use 'te was given. With a capacity of less than 5 liters bottle manufacturing of blow molding applications, about 40% of HDPE demand 'lık part has. These containers, detergents, liquid soap, shampoo, such as milk bottle has a wide range of use. Some areas the use of recycled polyethylene increased 1 Quality HDPE 'to limit the use of milk and fruit juice although growth will continue to use for the HDPE is estimated.

9. LINEAR LOW DENSITY POLYETHYLENE

9.1. PRODUCTION TECHNOLOGY

Recently, using low-pressure autoclave and tubular reactors are produced by LLDPE. LLDPE 's features LDPE from is quite different. Resistance to stress and strain LDPE what higher than, impact resistance is better. Heat resistance 15 ° C higher, processing more difficult. However, clarity, brightness and worse, is lower than the melting power. Production is carried out in the gas phase LLDPE process, the resulting resin, ethylene - is alfaolefin copolymer and has a linear structure. LLDPE at branch processing is not actually a lot of space in the machine direction is up. Shooting in the direction perpendicular to the elongation is low. While LLDPE grass, as hekzen and butene copolymer produced with.

9.2. ISLE TECHNOLOGY

LDPE and LLDPE processing techniques and processing techniques are the same, the press is only shoulder LLDPE LDPE request ekstruderlarında is not conventional. Therefore in LDPE LLDPE 40% are mixed in proportions of disengaging. LLDPE 'ni alone to process these products have been designed according to the need to use the new extruder.

9.3. USE AREAS

• Film extrusion ürü, garbage bags, agricultural-purpose heavy-duty bags, canvas, grocery bags, textile product packaging

• Injection molding products, household goods, toys production, stationery, electronics industry fittings

• Rotary molding products, various size containers, trash bins, portable Booths

• Blow molding products with various volume bottles, water closes with

9.4. LLDPE CONSUMPTION

Eastern Europe also needs LLDPE shows a rapid increase in recent years. Especially LDPE 'la use and in some cases, LLDPE' s preference to increased consumption.

LLDPE 's approximately 76% of' sI packaging packaging applications are being consumed.

LLDPE, LDPE film applications quickly 's are replaced. LLDPE 's

high flexibility, low temperature heat in the resistance against the high-purity

degree of clarity and high optical transmittance and sees a lot of interest.

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 PET Plastik?

What is PET Plastik?

Learn about the general plastic used in u bottles: PET

PET Plastics are some of the more frequently discussed plastics when looking for solutions for drinking water. Unlike other types of plastics, polyethylene terephthalate is considered safe and represented on water bottles number "1", indicating that it is a safe option. These plastics are a kind of thermoplastic polymer resin that is useful in a variety of applications, including synthetic fiber production, in food containers and thermoforming applications.
It does not contain polyethylene - despite its name.

History
John Rex Whinfield patented PET plastics first in 1941, along with James Tennant Dickson and others working for the Calico Printers Association. Once created and found to be very effective, the production of products using PET plastics has become more popular. The first PET bottle was patented later in 1973. At that time, Nathaniel Wyeth created the first official PET bottle in this patent. Wyeth was the brother of a famous American painter named Andrew Wyeth.

Physical features
There are some benefits from the use of PET plastics. Perhaps one of its most important features is its intrinsic viscosity. It absorbs water from the environment, which makes it hydroscopic. This allows the material to be processed using a common molding machine and is then dried.

It has an excellent abrasion resistance compared to other plastics.
It has high flexibility coefficient (makes it flexible.)
It has superior stability that makes it versatile and robust.
It has a low friction coefficient useful in various applications where other plastics are not available.
Plastic's chemicals do not leak into liquids or foods stored in it - making it one of the most important products for food storage.
Plastic's chemicals do not leak into liquids or foods stored in it - making it one of the most important products for food storage. These physical properties are an advantageous option for manufacturers who need safe plastics for use with food products or for continuous use.

Uses in Daily Life
There are both industrial and consumer-related uses for PET plastics. The most common use cases for polyethylene terephthalate are given below:

It is widely used in bottles and other plastic containers. This includes soda bottles, bakery products, water bottles, peanut butter jars, and even frozen food packaging.
It is used to hold cosmetics. As it is easy to mold, manufacturers can create very special shapes for various cosmetic products.
It is widely used for the storage of chemicals, including household cleaners.
Why do manufacturers turn to PET plastics when they can choose other types of materials that are easier to find? PET plastics are durable and strong. Many applications can be used repeatedly (recycling is a possibility with these products). It is also transparent and makes it versatile for a variety of applications. It can be closed again; easy to mold to any shape, easy to seal.

In addition, there is no possibility of shattering. Moreover, perhaps most importantly, it is a cheap type of plastic to use in many applications.

Recycling of PET Plastics Makes Sense
RPET plastics are a form similar to PET. These are produced after recycling of polyethylene terephthalate. The first PET bottle to be recycled occurred in 1977. As the main component in most of the plastic bottles used today, one of the most common discussions about PET plastics recycles it. It is an estimate that the average household produces about 42 pounds of plastic bottles containing PET annually. When recycled, PET can be used in a variety of ways for a variety of applications, including use on fabrics such as t-shirts and underwear.

It can be used as fiber in polyester based carpets. It is also effective as a fiber filler for winter coats and sleeping bags.

In industrial applications, it can be very effective for bonding or film and can be useful in creating automobile products, including fuse boxes and bumpers.

What is PVC plastic?

What is PVC plastic?

Polyvinyl chloride (Generally abbreviated as PVC.) A plastic polymer with a wide range of uses. It is the third most produced synthetic plastic polymer in the world after polyethylene and polypropylene.

It has two forms: solid (sometimes abbreviated as RPVC) and flexible. The solid form of PVC is used in the building industry for pipe and plumbing materials and door and window profiles. In recent years, PVC has taken its place in many fields of wood, concrete and clay, which are traditional building materials. It is also used in bottles, non-renewable product packages and cards (bank and member cards). It can be made softer and more flexible by adding plasticizers such as phthalates. This soft form is used in the wastewater industry in pipelines, electrical cable insulation, imitation leather, inflatable products. There are also application areas where it is used instead of rubber. It has been used in the health sector for the last 50 years. PVC can be found in the bags and transfusion sets, catheters, cannulas and drains, stoma products and many other places in the bags of blood, blood and blood products used parenterally.

How is PVC produced?
Polyvinyl chloride is produced by polymerization of monomer vinyl chloride. PVC is a hard plastic, plasticizers are added to make it softer and more flexible.

The history of PVC
Polyvinyl chloride was discovered by accident by Henri Victor Regnault in 1835 and Eugen Baumann in 1872 in two different forms in the 19th century. At the beginning of the 20th century, Russian chemists Ivan Ostromislensky and Fritz Klatte tried PVC with the German chemical company Griesheim-Elektron in commercial products, but rigid handling and polymer embrittlement ceased efforts.

In 1926, B.F. Waldo Semon from Goodrich company has developed a plasticization method by mixing PVC with different additives. This result gave the material more flexible and more easily workable, and the widespread use in the commercial field has been achieved in the near future.

Can PVC be recycled?
PVC can be recycled about seven times and its life is about 140 years. The international recycling code is indicated as "3".

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