Tips to Choose the Right Plastic Bathroom Partitions

In public places with massive foot traffic, like those from institutes, shopping centers, and private offices, bathroom--stalls are a must-have. The bathroom area must manage to accommodate at least up to 6 to 10 people, which allows people to use the restroom at the same time. And this is the core reason; why you should consider making use of a separate toilet partition when you want to build a public restroom. The use of Plastic bathroom partitions is the safest way to distinguish the toilets from various stalls.

 

Are you thinking about which type of partition material to pick from the gamut of options available in the market?

 

Bathroom Partitions: Making the Right Choice   

It is paramount to look for the best toilet partition materials; pick the one that outlasts the material and styles. So, if you do not want the toilet partitions to crack and be damaged through time; moreover, some may endure this deterioration far too quickly.

 

If you want to have bathroom partitions designed to last and withstand the elements, you need to pick a sustainable material. The aim is not only to avoid a replacement but to search for copper-bottomed material, which does not need significant repair over the years.

 

Buy a Bathroom Partition that Compliments your Environment

Although choosing a color palette that appeals to the commercial place is one option when you buy bathroom partitions, it is far from the only consideration. One important consideration is selecting the type of material your bathroom stalls are made of – and this is one of the most vital parts of your decision-making process. Thus, buying the wrong material for your commercial space can spell disaster.

 

So, which bathroom partition materials are best for a commercial application? We have the following recommendations:

• SIMOBOARD® Defender NFPA 286 HDPE

• SIMOGLAS® Clear PVC

• BOATBOARD® Cabinet Grade HDPE

• SIMOBOARD® Divider Class B HDPE

 

These options are durable, easy-to-maintain, and strong enough to withstand everyday use.

 

9 Reasons these Options Make a Great Fit   

Are you confused if the above-listed options are bang for your bucks? Then it would be a prudent choice to weigh their advantages. To make it simpler for you to make an informed decision, we have listed their benefits.

 

1. You get the chance to leverage Marr and scratch-resistant products.

2.They are easy to route.

3. They will save you from the maintenance hassle and are super easy to clean.

4. If you were looking for a  solid color throughout, you need to look no further.

5. You do not need to worry about the life of the partition; you get products made of chemical-resistant plastic, which makes It safe to clean frequently with cleaners.

6. You get products available with SIMOGUARD® antimicrobial technology.

7. Also, solid polymer composition will not dent, rust, or delaminate.

8. You will get surface consistency and uniform color.

9. Our products meet the NFPA 286 corner burn test requirements, which makes our products a safe option.

 

Build a Clean Bathroom Stall  

Today, plastic makes the world go ‘round. So, it comes as no surprise that plastic has made its way into the realm of commercial bathroom partitions, but the news is good. Solid plastic (HDPE) partitions make sense in commercial restrooms. They are durable, lightweight, and easy to clean and maintain. The HDPE solid plastic bathroom partitions resist graffiti-making and are less cumbersome to clean and manage.

 

Finally, HDPE toilet partitions help keep mildew, algae, and mold at bay. Of course, while HDPE solid plastic bathroom stalls make a bang-on choice for high-traffic bathrooms, keep in mind, they are not the only partitions to consider. So, we keep you covered when it comes to Plastic bathroom partitions. 

Why the Semiconductor Industry Needs Precision Plastic Machining

Semi-conductors are those materials that have an electrical conductivity value falling between a conductor and an insulator. With an increase in temperature, its resistivity falls while for metals the case is opposite. Semi conductors can be used in different ways by molding their conducting properties. This is done through the process of 'doping', wherein some impurity is intentionally added to the crystal structure. Two differently doped regions in the same crystal create a semi-conductor junction and the behavior of ions, electrons and electron holes which are the carriers of charge is the basis on which diodes, transistors and most modern electronics work.

A few examples of semiconductors are- silicon, germanium, gallium arsenide, and elements near the "metalloid-staircase" on the periodic table. Silicon is a crucial element used in fabricating most electronic circuits. Gallium-arsenide is the second most common semiconductor. It's used in laser diodes, solar cells, microwave-frequency integrated circuits, etc.

Precision Machining and challenges-

In this process, all the excess raw material is removed from a work-piece. Attention has to be paid to achieving close finish in a finished product. Larger pieces are modified and shaped into smaller and more accurate ones, to meet specific and exact requirements. Cutting, turning, milling and electrical discharge treatment is used to achieve the desired results. This process requires technical expertise and a skilled eye to supervise the process closely. Precision Machining is done using Computer Numerical Control (CNC) equipment.

Precision machining produces most of the objects that we use in our daily lives. Even the smallest objects require a certain level of a machinist’s skills. Similarly, a worn-down tool or equipment also requires calibration, welding, or grooving at the hands of a precision machinist. From automobile manufacture to surgical devices or aircraft parts, precision machining is involved in almost all current technology and industry.

What is semi-conductor plastic and why does the semi-conductor industry need precision plastic machining?

In the semiconductor industry, precision is most crucial which entails maintaining a high level of purity in the production environment. Cleanliness of the equipment used to machine these microscopic products is essential. The tools used in the process need to withstand harsh chemical conditions and extreme levels of heat. With such requirements, there are limited choices of raw material and the most suitable for such uses is plastic. There are several varieties of semiconductor plastic that can be used in the semiconductor industry. The most popular options for semiconductor plastic are briefly discussed-

HDPE- 

High Density Polyethylene: Sheets made from HDPE are commonly used due to their significant strength and resistance to acids and other contaminants like mildew and mold. In order to meet the huge demands of the semiconductor industry, HDPE is a popular choice as it meets the quality and purity standards needed. Its highly malleable and versatile.

Polycarbonate- 

Its one of the strongest plastics available. It has a huge demand in the semiconductor industry and is used in making device test sockets and piping components like valves, tubing and filtration elements. It resists electric shocks and is used in dampening static electricity, which is essential in the semi-conductor industry.

Polypropylene- 

This is a highly resistant plastic and can resist acid and chemical impact. This is a more economical option and due to this it is a quite viable option. It is used in making wet benches and work stations, plastic semiconductors, integrated circuit chip parts and electrical insulators.

Semiconductor precision machining requires great accuracy and precision. It's a complicated and challenging task to repetitively produce parts with accurate geometry, tight tolerances, perfect finishes and optical clarity. Fulfilling all these requirements on an everyday basis needs high-performance machines and tools made with a suitable raw material. This is why the semi-conductor industry can greatly benefit by maximizing the use of semiconductor plastics and generate high profits in a cost-efficient and sustainable manner.

Here Is Why Marine-Grade Polymer Is The Best For Your Outdoor Furniture.

A beautiful home is a dream come true for everyone. To reach your goal of a perfect home, you might have to take care of a few aspects. Broadly speaking, architecture and interior design should be in synchronization for a great-looking house. Architecture is taking care of the design intricacies at the time of building the house and the interior is placing the right kind of furniture as design elements that make a good theme for the home.

Choosing your furniture can be demanding if you take up interior designing on your own. There are so many types of furniture materials that you may land up getting confused. However, if you are on the lookout for something safe, sturdy, and good-looking, the marine-grade polymer is your best bet. Here are a few reasons why you should pick the same for your dream home.

Weather friendly: 

Unlike a wooden or iron make of furniture, a marine-grade polymer will not rot, crack or separate in an outside environment. Hence, if you are on the lookout for furniture for your deck or patio, then it is your safest bet. It is made up of non-porous solid resin; hence it deflects water. So, even if you live in an area with heavy rainfall, you can leave your furniture out in the open without having to worry about it.

High design value: 

One of the best-selling features is that you can shape it in beautiful designs with great ease. While making the furniture, the color pigment falls throughout the material. Even if you scratch the surface with rough handling, you won't be able to see these scratches easily. this feature increases the life of the material. The collection uses stainless steel hardware for its sturdiness. You are bound to get quality and beauty engraved in the same piece of furniture.

Environment friendly: 

The furniture is made up of FDA-approved resins. It contains 30 percent recycled resins, and the rest is virgin to improve the quality of the product. So, even though it not precisely environment-friendly, there is an initiative to take things in the best possible direction. While making the product, there is hardly any raw material or process that will lead to harmful gases in the air. When the product takes the desired shape, no residual damage happens to the environment; instead, there is a left-over shaving reused in making a different piece of furniture.

Even though the products made from marine-grade polymer pose no fire hazard, if they are burnt, there is no harmful gas emission that may harm the atmosphere. It Contains no known toxic substances, including carcinogens, toxins, or bioaccumulative materials.

There are different grades of the same material that you can use for getting your furniture. If you do an in-depth study of the make of the furniture, you will identify one from the other. While choosing the furniture, you must make sure that you pick the one with a high grade, even if it costs you a little more than your set budget. The low-grade furniture may look the same at the moment, but porous foamed resin can deplete the life of the furniture to a large extent.

An Insight into the Types of Plastic Suitable for Plastic Outdoor Furniture

Plastics today are found in almost every kind of application, from heavy industrial materials to delicate showpiece items. The incredible versatility of plastic is what makes it a suitable material for a wide variety of uses, plus the fact that plastic’s chemical components can be adjusted exactly to a specific requirement makes it a key raw material in furniture making. 

Furniture can be of two types: indoor furniture and outdoor furniture, with the latter using slightly different raw materials due to continuous exposure to outdoor elements such as heat, dust, snow and rain. Plastic outdoor furniture is more common than others because of the versatility of plastic as a raw material as stated above, and because they are relatively cheaper to construct and maintain as compared to most other materials. 

Different types of plastic are used for the making outdoor furniture, depending on the cost of input and the usage pattern of the furniture. Here are some common plastic variants used for making plastic outdoor furniture: 

1. Polycarbonate Plastic 

What started out as an expensive and niche plastic that was restricted mostly to commercial out slowly became more mainstream as cheaper methods to produce polycarbonate has made it far more accessible to the general public to be used in non-commercial settings. It is still slightly expensive but the durability it offers over most plastic variants alone makes it worth recommending for any kind of outdoor plastic furniture. However, it is mostly used for small scale furniture such as patio chairs and tables, false terraces, glass window replacement and outdoor panels.  

2. Acrylic Plastic 

Acrylic is a highly durable plastic variant that is well suited for the rough outdoor environment and can tolerate heat levels up to 180 F. It is generally used for making outdoor glass tables and glass windows due to its glass-like appearance. It is a better substitute for glass due to its higher durability and lesser weight. It is cheaper than polycarbonate but is susceptible to color fade in exposed to continuous direct sunlight for extended periods of time. 

3. HDPE Plastic 

HDPE stands for high-density polyethylene, and is a tough plastic variant perfect for outdoor plastic furniture. It is slightly softer than polycarbonate or acrylic but is hard enough to resist daily wear and tear during usage. Its negligible brittleness means HDPE panels can be assembled together into furniture with regular standard screws or glue. Any outdoor playground equipment that has plastic in it probably is made of HDPE plastic. 

4. HDPE Marine Board 

It is a variant of HDPE plastic that is modified for use underwater. It offers more underwater resistance and durability over standard HDPE plastic. This is well suited for making furniture for the swimming pool or for making pool linings and pipes connected to the pool underground. It can be also used to make pool decks or swimming pool stands that will resist the occasional water splashes around the pool area. 

Properties And Uses of Type 1 PVC

A man-made polymer, PVC (Polyvinyl chloride) is one of the most commonly used thermoplastics polymers worldwide. With its commendable properties, it is replacing traditional building materials such as wood, metal, concrete, and clay in many applications. Usage of PVC has grown steadily since its production and become a very widely used plastic in a myriad of uses from fills and mouldings to extruded pipes.

The general form of PVC

Polyvinyl chloride is widely available in two broad categories: a rigid or unplasticized polymer and another as a flexible plastic. Note that, in its base form PVC is characterized by its rigid yet brittle structure with excellent resistance to water and aqueous solutions. While the rigid version in the form of Type 1 PVC holds various uses across multiple industries such as in restrooms, shower partitions, lockers, plumbing, sewage, and much more for the properties like chemical and corrosion resistance.

 

On the other hand, flexible, plasticized, also known as the regular PVC, is usually softer and more amenable to bending than the rigid, which is commonly used in construction or as insulation on electrical wires or in flooring of homes, hospitals, and schools where a sterile environment is a priority.

 

Key Facts about Type 1 PVC

1. Intrinsic flame retardant: Type 1 PVC complies with fire resistance standards defined by grades that meet NFPA 286 corner burn test requirements. Because of the high chlorine content PVC have fire safety characteristics as these are self-extinguishing which is quite favorable among users.

2. FDA compliant as well as suitable for transparent applications.

3. UV protection: PVC manufacturers produce Type 1 PVC with UV stabilization that is intended for general purposes and other thermoforming activities. This makes it ideal to be used for exterior products featuring UV protection, rot, abrasion, and chemicals.

4. Density: PVC is very dense as compared to most plastics with good dimensional stability at room temperature.

5. Durability: The rigid PVC is resistant to weathering, chemical rotting, corrosion, shock, impact-resistant, and abrasion. It is therefore the preferred choice for many long-life and outdoor products.

6. Versatile: The physical properties of PVC allow designers a high degree of molding the design as per their needs, requirements of the product, and developing solution where it acts as a great replacement for other materials with its properties.

  

Applications of PVC

The versatile material PVC offers many possible applications which include but are not limited to, window frames, drainage pipes, medical devices, cable and wire insulation, resilient flooring, water-resistant bathrooms, roofing membrane, packaging, and much more across multiple industries in both its rigid and flexible forms. In particular, the rigid PVC possesses a high density for plastic, making it extremely strong and incredibly durable. This is also readily available and economical, which is a plus point, as combined with most plastics long-lasting characteristics, makes it an easy choice for many industrial applications as follows:

 

1. PVC in water plumbing and pipes: As mentioned in the key facts, PVC is a durable material that is resistant to weathering which is why it is often used in applications of plumbing and pipes.

2. PVC in buildings and construction: Window frames, pipes, house siding, roofing, and ports, if you were to design a material that is ideal for building and construction, you would be choosing PVC to create something well-suited for these purposes. It is also resistant to chemicals and doesn't conduct electricity, making it crucial to be used in high-tech applications such as flooring, partitions, windows, and sidings.

3. PVC in coating and cable insulations: With its excellent thermal and electrical resistance it is used in insulation pipes, jacketing, switches, plugs, and battery terminals in terms of conductivity. Moreover, these properties of PVC have promoted the use of vinyl as a coating to duct pipes, electrical cables, wire, and other components with the feature of modern electricity.

Properties And Uses of Type 1 PVC

A man-made polymer, PVC (Polyvinyl chloride) is one of the most commonly used thermoplastics polymers worldwide. With its commendable properties, it is replacing traditional building materials such as wood, metal, concrete, and clay in many applications. Usage of PVC has grown steadily since its production and become a very widely used plastic in a myriad of uses from fills and mouldings to extruded pipes. 

General form of PVC

Polyvinyl chloride is widely available in two broad categories: a rigid or unplasticized polymer and another as a flexible plastic. Note that, in its base form PVC is characterized by its rigid yet brittle structure with excellent resistance to water and aqueous solutions. While the rigid version in the form of Type 1 PVC holds various uses across multiple industries such as in restrooms, shower partitions, lockers, plumbing, sewage, and much more for the properties like chemical and corrosion resistance.

 

On the other hand, flexible, plasticized, also known as the regular PVC, is usually softer and more amenable to bending than the rigid, which is commonly used in construction or as insulation on electrical wires or in flooring of homes, hospitals, and schools where a sterile environment is a priority.

 

Key Facts about Type 1 PVC

1. Intrinsic flame retardant: Type 1 PVC complies with fire resistance standards defined by grades that meet NFPA 286 corner burn test requirements. Because of the high chlorine content PVC have fire safety characteristics as these are self-extinguishing which is quite favorable among users.

2. FDA compliant as well as suitable for transparent applications.

3. UV protection: PVC manufacturers produce Type 1 PVC with UV stabilization that is intended for general purposes and other thermoforming activities. This makes it ideal to be used for exterior products featuring UV protection, rot, abrasion, and chemicals.

4. Density: PVC is very dense as compared to most plastics with good dimensional stability at room temperature.

5. Durability: The rigid PVC is resistant to weathering, chemical rotting, corrosion, shock, impact-resistant, and abrasion. It is therefore the preferred choice for many long-life and outdoor products.

6. Versatile: The physical properties of PVC allow designers a high degree of molding the design as per their needs, requirements of the product, and developing a solution where it acts as a great replacement for other materials with its properties.

 

 

Applications of PVC

The versatile material PVC offers many possible applications which include but are not limited to, window frames, drainage pipes, medical devices, cable and wire insulation, resilient flooring, water-resistant bathrooms, roofing membrane, packaging, and much more across multiple industries in both its rigid and flexible forms. In particular, the rigid PVC possesses a high density for plastic, making it extremely strong and incredibly durable. This is also readily available and economical, which is a plus point, as combined with most plastics long-lasting characteristics, makes it an easy choice for many industrial applications as follows:

 

1. PVC in water plumbing and pipes: As mentioned in the key facts, PVC is a durable material that is resistant to weathering which is why it is often used in applications of plumbing and pipes.
2. PVC in buildings and construction: Window frames, pipes, house siding, roofing, and ports, if you were to design a material that is ideal for building and construction, you would be choosing PVC to create something well-suited for these purposes. It is also resistant to chemicals and doesn't conduct electricity, making it crucial to be used in high-tech applications such as flooring, partitions, windows, and sidings.
3. PVC in coating and cable insulations: With its excellent thermal and electrical resistance it is used in insulation pipes, jacketing, switches, plugs, and battery terminals in terms of conductivity. Moreover, these properties of PVC have promoted the use of vinyl as a coating to duct pipes, electrical cables, wire, and other components with the feature of modern electricity.