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Plastic's use and abuse

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Main point of this slide 01. Introduction 02. There are some types of plastic materials such as 03. History 04. Organic Structure of Plastic 05. Mechanism of Organic Structure 06. The molecule Ethene 07. The molecule Polyvinyl chloride 08. Uses 09. Benefits 10. Uses Statistics 11. Pollutants of plastic 12. Disadvantage of plastic 13. Plastic Waste management 14. Alternative of Plastic 15. Conclusion Thank you

Science
1 of 18
Introductio n: Plastics are used on a daily basis throughout the world. The word plastic is a common term that is used for many materials of a synthetic or semi-synthetic nature. Plastics are the most versatile materials ever invented and have become a universal material , used for everything from water bottles to wings on combat aircraft. One way plastic changed the world was in cost. It was so much cheaper to manufacture than other materials and the various ways it could be used was staggering. 01
There are some types of plastic materials such as: Polyvinyl chloride Nylon High-density polyethylene Polypropylene Bakelite Thermoplastic 02
Histo ry: Parkesine(1855) Alexander Parkes invented Parkesine. We know it today as celluloid. PVC(1838-1872) Waldo Semon and Eugen Baumann invented polyvinyl chloride. Bakelite (1907) A key breakthrough came in 1907, when Belgian-American chemist Leo Baekeland created Bakelite, the first real synthetic, mass-produced plastic. Since the dawn of history, humankind has endeavoured to develop materials offering benefits not found in natural materials. The development of plastics started with the use of natural materials that had intrinsic plastic properties, such as shellac and chewing gum. The next step in the evolution of plastics involved the chemical modification of natural materials such as rubber, nitrocellulose, collagen and galalite. Finally, the wide range of completely synthetic materials that we would recognise as modern plastics started to be developed around 100 years ago: 03
Organic Structure of Plastic: Plastic, A subgroup of organic polymers that can be molded. Plastics may contain more than one organic polymer as well as other additives. 04
Mechanism of Organic Structure: The role of the plasticizer is to increase the ability of a material to change shape without breaking. Monomers can be chemically joined together in two ways: addition polymerization or condensation polymerization. Addition polymerization has three basic steps: 1) Initiation. 2) Propagation. 3) Termination. In this type of polymerization the monomers join by adding on to the end of the last “mer” in the chain, just like making a chain of paper clips. Polyethylene, polystyrene, and acrylic are examples of plastics formed by addition polymerization. These polymers are often thermoplastic in nature: they can be heated and made soft and then hardened when cooled. They are easily processed, reprocessed, or recycled. See the attached tables, Some Addition Polymers and Some Condensation Polymers, for examples of each type. 05
The molecule Ethene: The structural formula of ethene is looks like organic structure. When lots of ethene molecules bond together, then a polymer called polyethene (commonly called polyethylene) is formed. Ethene is the unsaturated monomer which, when joined to other ethene molecules through an addition reaction, forms the saturated polymer polyethene. Polyethene is the most common plastic with over 80 million metric tons produced each year. It is commonly known as polyethylene. It is cheap and is used to make squeeze bottles, plastic bags, films, toys and molded objects as well as electric insulation. It has a recycling number 4 which means that it is easy to process, has strength, toughness, flexibility, is easy to seal and has a barrier to moisture. 06
The molecule Polyvinyl chloride • Polyvinyl chloride or PVC is formed from the monomer chloroethene, which is commonly known as vinyl chloride. PVC is used in construction, especially plastic piping. With the addition of a plasticizer. It is also used in clothing and upholstery and to replace rubber. During condensation polymerization a small molecule is eliminated as the monomers join together. Nylons, some polyesters, and urethanes are examples of condensation polymers. The molecule Polyvinyl chloride A class of hydrocarbons whose molecules contain a single pair of carbon atoms linked by a double bond. The chemical structure of the propylene molecule is CH2=CHCH3. The molecule consists of a backbone of carbon atoms with attached hydrogen atoms; attached to every other carbon atom is a pendant methyl group (CH3). 07
Uses: Versatile plastics inspire innovations that help make life better, healthier and safer every day. Plastics are used to make bicycle helmets, child safety seats and airbags in automobiles. They’re in the cell phones, televisions, computers and other electronic equipment that makes modern life possible. They’re in the roofs, walls, flooring and insulation that make homes and buildings energy efficient. And plastics in packaging help keep foods safe and fresh. Some plastics occur in nature, like tree rubber. There are “organic” plastics, which contain carbon, and inorganic plastics, which don’t. Some plastics are hard and shatter-resistant, others are soft and flexible. Plastics make possible many things people don’t recognize as plastic at all – like paints, protective coatings and linings, adhesives and glues, and sealants and insulation. Some plastics have additives that make them bacteria- or fire- resistant; or give them a rainbow of colors; or make them flexible; or fill them with bubbles to make them better insulators; or even add fibers to make high-tech composites. There are tens of thousands – or more – of different kinds of plastics and formulations. 08
Benefits: • Find information on the wide variety of plastics used in hundreds of household and consumer products. • Plastics enable sustainable, durable, long-lasting design and construction in homes, buildings, and infrastructure like bridges. • In automotive design, plastics have contributed to a multitude of innovations in safety, performance and fuel efficiency. • Plastic packaging helps protect and preserve goods, while reducing weight in transportation, which saves fuel and reduces greenhouse gas emissions. • From computers and cell phones to televisions and microwaves, durable, lightweight and affordable plastics have helped revolutionize the electronics we rely on every day. • Plastics help make sports safety gear – such as plastic helmets, mouth guards, goggles and protective padding – lighter and stronger to help keep sports enthusiasts of all ages safe. Molded, shock-absorbent plastic foam helps keep feet stable and supported, while rugged plastics shells covering helmets and pads help protect heads, joints and bones 09
35% 1% 2% 2% 3% 3% 7% 8% 8% 8% 23% Packaging Footwear Medical Mechanical Engineering Toys/Sports Others Agriculture Transport Housewear Electrical and Electronics Building and Construction Uses Statistics: 10
11
12
13
Plastic Waste management: • Disposing of plastic waste is trickier than dealing with traditional landfill material. • Not only plastic take thousands of years to break down, it can leach dangerous poison into the environment. • Plastic is not going away, but how plastic waste is managed is becoming more sophisticated. • Managing plastic waste starts at home with the consumer but ultimately depends on governments around the world as well. 14
Alternative of Plastic: Bangladesh has been producing biodegradable packaging materials and bags from corn. Unlike polythene bags, which survive in the soil for several hundred years and have devastating impacts on the environment, these bags are “compostable” 1 2 Bangladeshi scientist has synthesized a polymer from Jute fiber which can be used to create a kind of bag that works, looks and feels like a polythene bag but without the negative environmental impact. Dr Mubarak Ahmad Khan named his discovery “jute polymer”. It is produced by extracting cellulose from jute fiber. 15
Jewish Woman Invents A Replacement For Plastic Sharon Barak is a chemical engineer from Israel who has invented a product that could possibly be the solution to the world’s plastic pollution crisis. “After you finish using it and you throw it away, it will just break down and bio-degrade in nature,” Sharon says. 3 * There are more Eco-friendly alternative can used in order to avoid plastic adverse effects on health and environment. These alternatives include: • Glass • Eco-friendly beauty bars • Reusable grocery bags • Disposable wooden cutlery • Chicken Feathers • Milk Protein 16
Conclusion: Even though plastic recycling and its management has gained momentum now-a- days, the best possible way of protecting our environment is to alter the root cause of the problem by reducing the usage at the preliminary level. 17

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Plastic's use and abuse

  • 1.
  • 2. Introductio n: Plastics are used on a daily basis throughout the world. The word plastic is a common term that is used for many materials of a synthetic or semi-synthetic nature. Plastics are the most versatile materials ever invented and have become a universal material , used for everything from water bottles to wings on combat aircraft. One way plastic changed the world was in cost. It was so much cheaper to manufacture than other materials and the various ways it could be used was staggering. 01
  • 3. There are some types of plastic materials such as: Polyvinyl chloride Nylon High-density polyethylene Polypropylene Bakelite Thermoplastic 02
  • 4. Histo ry: Parkesine(1855) Alexander Parkes invented Parkesine. We know it today as celluloid. PVC(1838-1872) Waldo Semon and Eugen Baumann invented polyvinyl chloride. Bakelite (1907) A key breakthrough came in 1907, when Belgian-American chemist Leo Baekeland created Bakelite, the first real synthetic, mass-produced plastic. Since the dawn of history, humankind has endeavoured to develop materials offering benefits not found in natural materials. The development of plastics started with the use of natural materials that had intrinsic plastic properties, such as shellac and chewing gum. The next step in the evolution of plastics involved the chemical modification of natural materials such as rubber, nitrocellulose, collagen and galalite. Finally, the wide range of completely synthetic materials that we would recognise as modern plastics started to be developed around 100 years ago: 03
  • 5. Organic Structure of Plastic: Plastic, A subgroup of organic polymers that can be molded. Plastics may contain more than one organic polymer as well as other additives. 04
  • 6. Mechanism of Organic Structure: The role of the plasticizer is to increase the ability of a material to change shape without breaking. Monomers can be chemically joined together in two ways: addition polymerization or condensation polymerization. Addition polymerization has three basic steps: 1) Initiation. 2) Propagation. 3) Termination. In this type of polymerization the monomers join by adding on to the end of the last “mer” in the chain, just like making a chain of paper clips. Polyethylene, polystyrene, and acrylic are examples of plastics formed by addition polymerization. These polymers are often thermoplastic in nature: they can be heated and made soft and then hardened when cooled. They are easily processed, reprocessed, or recycled. See the attached tables, Some Addition Polymers and Some Condensation Polymers, for examples of each type. 05
  • 7. The molecule Ethene: The structural formula of ethene is looks like organic structure. When lots of ethene molecules bond together, then a polymer called polyethene (commonly called polyethylene) is formed. Ethene is the unsaturated monomer which, when joined to other ethene molecules through an addition reaction, forms the saturated polymer polyethene. Polyethene is the most common plastic with over 80 million metric tons produced each year. It is commonly known as polyethylene. It is cheap and is used to make squeeze bottles, plastic bags, films, toys and molded objects as well as electric insulation. It has a recycling number 4 which means that it is easy to process, has strength, toughness, flexibility, is easy to seal and has a barrier to moisture. 06
  • 8. The molecule Polyvinyl chloride • Polyvinyl chloride or PVC is formed from the monomer chloroethene, which is commonly known as vinyl chloride. PVC is used in construction, especially plastic piping. With the addition of a plasticizer. It is also used in clothing and upholstery and to replace rubber. During condensation polymerization a small molecule is eliminated as the monomers join together. Nylons, some polyesters, and urethanes are examples of condensation polymers. The molecule Polyvinyl chloride A class of hydrocarbons whose molecules contain a single pair of carbon atoms linked by a double bond. The chemical structure of the propylene molecule is CH2=CHCH3. The molecule consists of a backbone of carbon atoms with attached hydrogen atoms; attached to every other carbon atom is a pendant methyl group (CH3). 07
  • 9. Uses: Versatile plastics inspire innovations that help make life better, healthier and safer every day. Plastics are used to make bicycle helmets, child safety seats and airbags in automobiles. They’re in the cell phones, televisions, computers and other electronic equipment that makes modern life possible. They’re in the roofs, walls, flooring and insulation that make homes and buildings energy efficient. And plastics in packaging help keep foods safe and fresh. Some plastics occur in nature, like tree rubber. There are “organic” plastics, which contain carbon, and inorganic plastics, which don’t. Some plastics are hard and shatter-resistant, others are soft and flexible. Plastics make possible many things people don’t recognize as plastic at all – like paints, protective coatings and linings, adhesives and glues, and sealants and insulation. Some plastics have additives that make them bacteria- or fire- resistant; or give them a rainbow of colors; or make them flexible; or fill them with bubbles to make them better insulators; or even add fibers to make high-tech composites. There are tens of thousands – or more – of different kinds of plastics and formulations. 08
  • 10. Benefits: • Find information on the wide variety of plastics used in hundreds of household and consumer products. • Plastics enable sustainable, durable, long-lasting design and construction in homes, buildings, and infrastructure like bridges. • In automotive design, plastics have contributed to a multitude of innovations in safety, performance and fuel efficiency. • Plastic packaging helps protect and preserve goods, while reducing weight in transportation, which saves fuel and reduces greenhouse gas emissions. • From computers and cell phones to televisions and microwaves, durable, lightweight and affordable plastics have helped revolutionize the electronics we rely on every day. • Plastics help make sports safety gear – such as plastic helmets, mouth guards, goggles and protective padding – lighter and stronger to help keep sports enthusiasts of all ages safe. Molded, shock-absorbent plastic foam helps keep feet stable and supported, while rugged plastics shells covering helmets and pads help protect heads, joints and bones 09
  • 11. 35% 1% 2% 2% 3% 3% 7% 8% 8% 8% 23% Packaging Footwear Medical Mechanical Engineering Toys/Sports Others Agriculture Transport Housewear Electrical and Electronics Building and Construction Uses Statistics: 10
  • 12. 11
  • 13. 12
  • 14. 13
  • 15. Plastic Waste management: • Disposing of plastic waste is trickier than dealing with traditional landfill material. • Not only plastic take thousands of years to break down, it can leach dangerous poison into the environment. • Plastic is not going away, but how plastic waste is managed is becoming more sophisticated. • Managing plastic waste starts at home with the consumer but ultimately depends on governments around the world as well. 14
  • 16. Alternative of Plastic: Bangladesh has been producing biodegradable packaging materials and bags from corn. Unlike polythene bags, which survive in the soil for several hundred years and have devastating impacts on the environment, these bags are “compostable” 1 2 Bangladeshi scientist has synthesized a polymer from Jute fiber which can be used to create a kind of bag that works, looks and feels like a polythene bag but without the negative environmental impact. Dr Mubarak Ahmad Khan named his discovery “jute polymer”. It is produced by extracting cellulose from jute fiber. 15
  • 17. Jewish Woman Invents A Replacement For Plastic Sharon Barak is a chemical engineer from Israel who has invented a product that could possibly be the solution to the world’s plastic pollution crisis. “After you finish using it and you throw it away, it will just break down and bio-degrade in nature,” Sharon says. 3 * There are more Eco-friendly alternative can used in order to avoid plastic adverse effects on health and environment. These alternatives include: • Glass • Eco-friendly beauty bars • Reusable grocery bags • Disposable wooden cutlery • Chicken Feathers • Milk Protein 16
  • 18. Conclusion: Even though plastic recycling and its management has gained momentum now-a- days, the best possible way of protecting our environment is to alter the root cause of the problem by reducing the usage at the preliminary level. 17