Author Archives: Nancy Ma

A New Nonstick Coating makes life easier

Posted on November 13, 2017 | 2 comments

Have you ever attempted to scoop out the remaining honey with fingers in a container? Have you ever squeezed really hard to get the last bit of a toothpaste? Is the little bit clingy glue in the bottom of the bottle really annoyed you when you try to use it?

A company called LiquiGlide discovered a new nonstick coating can let the above problems go away. The basic idea is to use this special coating to make the inside of container slippery so that the liquid will slide back into the bottom instead of sticking to the lid and drying there. In addition, a test by Consumer Reports in 2009 indicated that much of what we buy never makes it out of the container and is instead thrown away — up to a quarter of skin lotion, 16 percent of laundry detergent and 15 percent of condiments like mustard and ketchup. Therefore, If this material is widely used in daily life, we can save resources and reduce waste.  Bingham plastics is the most common material that is used in traditional container manufacturing. Bingham plastic is named after Eugene Bingham, a chemist who proposed the mathematical properties. This material is highly viscous and does not flow without a strong push.

This picture shows the average waste and the differences between new nonstick coatings and traditional coatings. (source)

The key to success this technology is to find a material that has superhydrophobic surfaces. Superhydrophobic surfaces are non-wettable surfaces with high water contact angles and facile sliding of drops. The superhydrophobic surface is rough under a microscope. Water rolls up into balls, sitting on the tips of the rough surface, but mostly on air trapped between the droplet and the rough surface. The droplets roll off easily. In this new material,  the lubricant binds more strongly to the textured surface than to the liquid, and that allows the liquid to slide on a layer of lubricant instead of being pinned against the surface, and the textured surface keeps the lubricant from slipping out. However, finding a proper material is not easy. If the microscopic roughness is damaged, water will flow in and displace the pockets of air, then stick to the no-longer-slippery surface. Since air can dissolve into the water if superhydrophobic surfaces are submerged in water for long periods, it will become rough. As a result, detergents or lotions will stick on the wall of containers.

This picture describes how superhydrophobic surface works in this new material. (source

In the future, the company wants to explore further on the industrial applications including coatings for petroleum storage tanks and pipelines. If these applications can succeed, less energy needed to push materials through the pipes,  fewer chemicals required cleaning the pipes.

 

 

 

 

 

Written by Nancy Ma

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Swimming or not swimming

Posted on October 22, 2017 | 4 comments

Swimming is one of the most popular sports around the world. Not like other sports, swimmers have a direct contact with water in swimming pools, therefore, the cleanness of water will influence swimmers’ skins, eyes, and other organs. One of the most commonplace issues is the amount of urine in a swimming pool. Many people have admitted to peeing in a swimming pool, even professional swimmers may do it during long distance training.

This is an example of a clean swimming pool (source)

Scientists have created a way to test the amount of urine in the water by measuring the concentration of an artificial sweetener, acesulfame potassium(ACE), that is commonly found in processed food and passes through the body unaltered.

People always think the disinfectants in the swimming pool will kill the harmful substance in urine. It is not true, disinfectants are forms of chlorine, bromine, ozone, and ultraviolet radiation. They only kill microbes by reacting with and disrupting the function of biomolecules. Actually, Urine is sterile, compounds in urine such as urea, ammonia, and creatinine will react with disinfectants to form byproducts such as DBP and trichloramine. DBP is a commonly used plasticizer that leads to eye and respiration irritation, trichloramine is a dangerous substance and was first prepared in 1812 by Pierre Louis Dulong, and cost his two fingers and an eye in two explosions. It links to asthma and other respiratory issues.

“urea ncl3”的图片搜索结果

“urea ncl3”的图片搜索结果

This is how trichloramine is formed in a swimming pool. (source)

Swimmers should be encouraged to take a shower before getting in the pool and refraining from peeing in it to improve the swimming environment for themselves and for everybody else who uses the pool. It is also important to rinse the body after swimming.

I am not encouraging people to not swim since the health benefits of maintaining a healthy lifestyle through swimming far exceed the potential risks associated with urine in swimming pools.

Written by: Nancy Ma

 

 

 

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Choose the right shoes for yourself

Posted on September 25, 2017 | Leave a comment

Author: Nancy MA Sep 24th

Have you ever noticed that different kinds of sports shoes have very different sole patterns and structures? For example, skateboard shoes have general flat soles, and running shoes’sole patterns are the same as the direction of the foot. Tennis shoes have horizontal patterns on their soles. Most people may choose shoes that are fashion and have a good appearance. It is important to choose the right shoes for different sports to protect you in sports activities.

There are several kinds of soles that are widely used in sport’s shoes. One of the most common sole patterns is a simple geometric image, such as circles. These kinds of soles are usually used in tennis shoes and basketball shoes since the small circles are like small disks that ensure the shoe has a better grip on the ground. A study shows that the user’s performance is likely to be enhanced because they have a greater feeling of security while performing the sporting activity.

New Balance is the first company that introducing this design into running shoes.

Another kind is sole has multi-directional lines or waves. They are widely used in running and tennis training to alleviate the stress and impact onto knees and ankles.

 

This is a pair of classic Nike Cortez shoes with wave patterns in shoe soles.

Nowadays, many shoe factories choose not to fill every part of the soles with lines since most people barely use the middle part of the soles. Therefore, usually there are more waves or lines at the top and end of the soles, but not in the middle part.

This pair of converse shoes is a good example of different lines and waves distributing in the shoe sole.

The third kind of soles is filled with 100% rubber. This is perfect for indoor sports such as basketball or badminton since rubber is a relatively light material and suitable for jumping higher or moving faster. Rubber is a wear-resistant material since it is a polymer. It is not easy to be damaged by rock or sand while climbing mountains or attending other high-intensity sports. The hardness of rubber can be changed by changing temperature or other factors during manufacturing. Since natural rubber is soft and can be easily bent at an angle of approximately 15° to a line normal to the longitudinal axis of the foot. The addition of sulfur or other covalent linkages between rubber chains increases the hardness of rubber and fit other sports.

This is the structure of natural rubber.

This is an example of industrial rubber.

Your feet are more important than you think. Everything from balance, stability, movement and musculoskeletal alignment begins with the feet. Therefore, it is important to choose the right shoes for yourself.

Nancy Ma

 

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