Welcome to world of PLASTICS!!!

Look around you, h
ow many things do you see made from plastic? You will realize that plastics are everywhere. There are numerous plastics items such as: toys, pens, food or drink containers and plumbing pipes.  





What are Plastics?


Plastics are any synthetic or semi-synthetic organic polymer, which means that they are artificial or manufactured. So, synthetic materials are made of building blocks that are put together. Plastics are made of carbon. The main material used in the production of man-made plastics is oil(petroleum) and natural gas, but other natural materials like cellulose also can be also used to made plastics. Plastics are large carbon-containing compounds, called polymers which are composed of repeating units of shorter-carbon containing compounds, called monomers.




Plastics are grouped into two main polymer categories:
  • Thermoplastics (which melt on heating and then harden again on cooling)
  • Thermosets (which never melted when they have been formed but will cracked/charred when exposed to enough heat )
     Examples of Thermoplastics
      Acrylonitrile butadiene styrene – ABS
      Polycarbonate - PC
      Polyethylene - PE
      Polyethylene terephthalate - PET
      Poly(vinyl chloride) - PVC
      Poly(methyl methacrylate) - PMMA
      Polypropylene - PP
      Polystyrene - PS
      Expanded Polystyrene - EPS
Examples of Thermosets
Epoxide (EP)
Phenol-formaldehyde (PF)
Polyurethane (PUR)
Polytetrafluoroethylene - PTFE
Unsaturated polyester resins (UP)












80% of the plastics produced are thermoplastics while Polyethylene, Polyvinylchloride(PVC), Polypropylene and Polystyrene are among the most commonly used thermoplastics (70%). 


6 Main types of plastics: 

  • Polyehylene terephthalate(PET/PETE)
Common uses: soft drink bottles, cooking oil bottles, peanut butter jars, products containing essential oils, some fruit juices, alcohol beverage bottles, space blankets.

  • Low-density polyethelene (LDPE)
Common uses: dry-cleaning bags, produce bags, trash can liners, food storage containers, bread bags, squeezable containers, six pack soda can rings, food storage.

  • High-density polyethelene (HDPE)

Common uses: milk jugs, distilled water, large vinegar bottles, grocery bags, liquid laundry and dish detergent, fabric softener, motor oil, antifreeze, bleach and lotion.

  • Polypropylene (PP)
Common uses: bottle caps, drinking straws, hinged containers, battery cases, dairy tubs (e.g. sour cream, cottage cheese), cereal box liners.

  • Polyvinyl chloride (PVC)

Common uses: chemical spray bottles, pipes, electrical wire insulation, clothing, bags, upholstery, tubing, flooring, waterbeds, pool toys, bottles.

  • Polystyrene (PS)
Common uses: bottle caps, drinking straws, yogurt cups, clear carryout containers, vitamin bottles, fast food, spoons, knives and forks, hot cups, meat and produce trays, egg cartons, food containers.






The chemistry behind plastics:

All plastics are polymers, but not all polymers are plastics. Plastics are formed by a process called polymerization. Polymerization occurs when individual monomers bond together. Identical monomers that combine together form homopolymers while different monomers that combine together form copolymers. Most plastic are usually created with several types of plastics, so they will not break down. 

The properties of a plastic are determined by:
  • The type of monomers that made up. Homopolymer 1, Copolymers and Homopolymer 2 will have different chemical properties.
  • The arrangement of monomers within the polymer. Straight polymers will have different chemical properties than branched polymers.

The monomers that can be found in plastics include organic compound like ehylene, propylene, styrene, phenol, formaldehyde, ethylene glycol, vinyl chloride and acetonitrile.

Due to the different combination of monomers, different kind of plastics with different chemical properties can be produced.

There are 2 ways which monomers can bond together to form polymers of plastics.
  • Condensation reaction.


Two small molecules, monomers bind with the loss of a smaller molecule, usually water, alcohol or acid. As in the above picture, both monomer #1 and #2 have hydroxyl groups (OH) and hydrogen group (H). When the two monomers come together, one monomer lose a hydrogen while the other lose a hydroxyl group. The hydrogen and hydroxyl form water (H2O), and the remaining electrons form a covalent chemical bond between the monomers. The resulting compound is the basic subunit of copolymers #1 and #2. 
  • Addition reaction.
Addition reactions involve rearranging electrons of the double bonds within a monomer to form single bonds with other molecules. The two molecules then formed polymer and the process repeated until polymer chains are formed. The various polymer chains can interact and cross-link by forming strong or weak bonds between monomers contribute to the physical properties of plastics (soft/hard, stretchy/rigid, clear/opaque, chemically inert). 

Today most plastics are made from petrochemicals(oil and natural gas). Oil is a carbon rich raw material. 


How Plastics formed?

The general way of plastics formed

1. Crude oil and natural gas are refined into ethane, propane or other petrochemical products. As in above figure, ethane undergoes cracking process into ethylene under high temperature furnaces. Ethylene is a small hydrocarbon consisting 4 hydrogen atoms and 2 carbon atoms. Various ethylene is chemically processed to make hydrocarbon monomers or carbon monomers used in plastics.

2. The ethylenes carry out polymerization reactions. The reaction produce polymer resins. Resin is the mass of polymers and usually in the form of powder or tiny granules. 

3. Resin is added with plasticizers, dyes and flame-retardant chemicals. The polymer is melted at first and cooled after that. The final polymer resins are formed usually in the forms of pellets. Finally, the polymer resins are processed into final plastic products by the main three processes, extrusion, injection and blow molding

  • Extrusion: Pellets are heated and mechanically mixed in a long chamber, forced through a small opening and cooled with air or water. This method is used to make plastic films.
  • Injection molding: The resin pellets are heated and mechanically mixed in a chamber and then forced under high pressure into a cooled mold. This process is used for containers like butter and yogurt tubs. 
  • Blow molding: This technique is used in conjunction with extrusion or injection molding. The resin pellets are heated and compressed into a liquid tube, like toothpaste. The resin goes into the chilled mold, and compressed air gets blown into the resin tube. The air expands the resin against the walls of the mold. This process is used to make plastic bottles.

In our daily life now, it is almost impossible to live without plastics. Yes, plastics are very convenient to use because of their malleability and plasticity. They can be easily moulded by heating. But, did you know plastics take about 300 years to decay? Did you know almost a billion tons of plastics have been discarded since the 1950s? So, what happens to the plastic tossed out in the garbage? Lets us take the initiative by reducing the usage of plastics, only with that we perhaps can reduce and stop the harm to our planet, and in turn, benefit to ourselves. "Say No To Plastic Bags" please!



What's on your face?

Take a deep breath before you continue reading this post.
︳︳



















Men also put make up on their faces?! Make up for Halloween I think. (Pictures are taken from internet.)

From those pictures above, make-ups can totally change a person's appearance, not only for
women but also men. Why women love to put make-ups on their faces? The reasons are:
1.    They want fairer, smoother and younger skin by covering the dark spots, dark circles, wrinkles, freckles, fine lines on their faces.
2.  Make-ups make a woman seem more attractive, charming, like-able, competent, trustworthy and glamorous. 
3.  Women can gain self-confidence from their make-ups, for example, putting on blushes and lipsticks makes a woman look healthier and sexier and eyeliners make a woman’s eyes stand out more.
4. Make-ups will protect their skins from the ravages of weather, central heating and air conditioning, petrol fumes, etc.
5.     Women are just enjoying the fun applying make-ups on their faces and sharing the experiences between friends.


-------------------------------------------------------------------------------------------------

Actually what do we know about cosmetics? Let me do a simple introduction about cosmetics. 
Cosmetics are chemical substances or mixture intended to be placed in contact with the external
parts of the human body or with the teeth and the mucous membranes of the oral cavity to clean
them or used to enhance or protect the appearance or correct odour of the human body.

The term 'COSMETICS' covers a wide variety of products, including skin-care creams, lotions,
powders, perfumes, lipsticks, fingernail and toe nail polish, eye and facial makeup, permanent
waves, coloured contact lenses, hair dyes, hair sprays and gels, moisturizers, shampoos,
deodorants and toothpastes, hand sanitizer, baby products, bath oils, bubble baths, bath salts,
butters and many other types of products. 



Cosmetics bring us a lot of benefits but have you ever wonder about the ugly side of cosmetics? Have you ever thought about what was in your cosmetic's products? Are those chemical substances safe for humans’ bodies? Do you find it hard to read all the ingredients in your cosmetics? Unfortunately many cosmetics and beauty products are filled with harmful chemicals. One philosophy … is not to put anything on the face that you wouldn't eat. If you wouldn't put it on your plate, then don’t put it on your face! This is critical because the face absorbs material just as if you had eaten it. So, if you would not put a spoon in your moisturizer jar and eat it, or use it as an ingredient in a dish you would serve to your family, then you should not put it on your face. Chemicals that you put in your mouth are absorbed into your blood and reach your skin where they are deposited. When you put these chemicals on your skin, they are absorbed by your skin cells into the blood, and therefore into the body. Furthermore, some chemicals can enter skin cells immediately, creating visible deposits (age spots/blemishes), and can worsen the skin conditions you are trying to improve. 


Do you have any idea what's in your shaving cream? Or perfume? When it comes to beauty products, the effects of the ingredients they contain can be more than just skin deep. The cosmetics industry uses thousands of synthetic chemicals in its products, in everything from lipstick and lotion to shampoo and shaving cream.

Many of these substances are also used in industrial manufacturing processes to clean industrial equipment, stabilize pesticides and grease gears. And we can all agree that an ingredient that effectively scours a garage floor may not be the best choice for a facial cleanser.

Following are some of the chemicals commonly found in cosmetics and what they do to us. This blog post might take some time to finish reading but please do take your time to read because it is closely related to our health especially girls who love to put on make-up. If you are a man who is reading this blog post, you could share to your girlfriends. 

1.    BHA and BHT
Used mainly in moisturizers and makeup as preservatives. The oxidative characteristics and/or metabolites of BHA and BHT may contribute to carcinogenicity or tumorigenicity; however the same reactions may combat oxidative stress. There is evidence that certain persons may have difficulty metabolizing BHA and BHT, resulting in health and behaviour changes. Suspected endocrine disruptors and may cause CANCER (BHA). Harmful to fish and other wildlife. 

2.   Coal tar dyes
P-phenylenediamine and colours listed as "CI" followed by five digits. P-phenylenediamine is used in some hair dyes; other colours are used in a variety of cosmetics. Potential to cause cancer and may be contaminated with heavy metals toxic to the brain. 

  3.   DEA-related ingredients
Used in some creamy and foaming products, such as moisturizers and shampoos. Can react to form nitrosamines, which may cause cancer. Harmful to fish and other wildlife.    

4.   Dibutyl phthalate
Used as a plasticizer in some nail care products. Suspected endocrine disrupter and reproductive toxicant. Harmful to fish and other wildlife.

5.   Formaldehyde-releasing preservatives
Used in a variety of cosmetics. Slowly release small amounts of formaldehyde, which causes cancer.

6.   Paraben, methylparaben, butylparaben and propylparaben
Used in a variety of cosmetics as preservatives. Suspected endocrine disrupters and may interfere with male reproductive functions. Parabens are a group of compounds widely used as an antifungal agent, preservative and antimicrobial in creams, lotions, ointments and other cosmetics, including underarm deodorants. They are absorbed through the skin and have been identified in biopsy samples from breast tumors.

7.   Petrolatum
Used in some hair products for shine and as a moisture barrier in some lip balms, lip sticks and moisturizers. Can be contaminated with poly-cyclic aromatic hydrocarbons, which may cause cancer.

8.  Siloxanes
Used in a variety of cosmetics to soften, smooth and moisten. Suspected endocrine disrupter and reproductive toxicant (cyclotetrasiloxane). Harmful to fish and other wildlife.

9.  Sodium laureth sulphate
Used in some foaming cosmetics, such as shampoos, cleansers and bubble bath. Can be contaminated with 1,4-dioxane, which may cause cancer.

10. Triclosan
Used in some antibacterial cosmetics, such as toothpastes, cleansers and deodorants. Suspected endocrine disrupter and may contribute to antibiotic resistance in bacteria. Harmful to fish and other wildlife.

11. Phthalates
Phthalates are a group of endocrine-disrupting chemicals that are found in cosmetics like nail polish and in synthetic fragrance—both perfumes and fragrance ingredients in other cosmetic products. Phthalate exposure has been linked to early puberty in girls, a risk factor for later-life breast cancer. Some phthalates also act as weak estrogens in cell culture systems.

12. 1, 4-dioxane
1, 4-dioxane is not listed on ingredient labels. It is a petroleum-derived contaminant formed in the manufacture of shampoos, body wash, children’s bath products and other sussing cosmetics. The International Agency for Research on Cancer (IARC) has ranked it as a possible carcinogen, and the National Toxicology Program (NTP) has identified it as a reasonably anticipated carcinogen.
13. Ethylene Oxide
Ethylene oxide is found in fragrances and is commonly used to manufacture popular brands of shampoo. It is classified as a known human carcinogen and is one of the 48 chemicals that the National Toxicology Program (NTP) identifies as mammary carcinogens in animals.

14. Polycyclic Aromatic Hydrocarbons (PAHs)
Polycyclic aromatic hydrocarbons (PAHs) are a group of chemicals that occur naturally in coal, crude oil and gasoline. One of the more common PAHs is naphthalene. Some cosmetics and shampoos are made with coal tar and therefore may contain PAHs. They have been shown to increase risk for breast cancer.

15. Placental Extract
Placental extract is derived from human or animal placentas and is used in hair conditioners, shampoos and other grooming aids, particularly those marketed to women of colour. The National Toxicology Program (NTP) has identified progesterone, the major hormonal contaminant in placental extracts, as a reasonably anticipated carcinogen.
16. Lead
Lead may be a contaminant in over 650 cosmetic products, including sunscreens, foundation, nail polishes, lipsticks and whitening toothpaste. Lead is a proven neurotoxin, linked to learning, language and behavioural problems. It has also been linked to miscarriage, reduced fertility in men and women, and delays in puberty onset in girls.

After reading this, you might scare off to apply any those chemicals synthesized make-up products on your face anymore. But don't worry, I know what girls' thinking, even thought they know some chemicals in cosmetic are not good for health but they will not force themselves to stop putting on make-ups on their faces. Why? Because we are girls and we wanted to look the best in front of others. SO, here are some tips for you to choose safe cosmetics:
1.    Use Fewer Products with Simpler Ingredients
2.    Avoid "Fragrance"
3.    Use Truly Natural Cosmetics
4.    Beware of Empty Organic and Natural Claims
5.    Read the Label to Avoid Synthetic Ingredients
6.    Get the Information You Need to Choose Wisely
7.    Don't Sweat Over Your Antiperspirant
8.    Avoid These Top Offenders:
  • Anti-aging creams with lactic, glycolic, AHA and BHA acids
  • Hair dyes, especially dark permanent dyes
  • Liquid hand soaps with triclosan/triclocarban
  • Nail polish and removers with formaldehyde, DBP or toluene (which can be contaminated with benzene)
  • Skin lighteners with hydroquinone
  • Heavily scented products
  • Moisturizers, ointments and skin creams with petrolatum (which can be contaminated with PAHs)
  • Fungicides, shaving creams, hair gels and hair coloring containing nonylphenol
  • Hair spray, gel, mousse or shaving cream that contains isobutane, a propellant that can be contaminated with 1,3-butadiene
  • Sunscreens with UV filters that mimic estrogen
Last, hope you enjoy my blog post. CHEERS! :)