Lab Coat Materials Ultimate Guide (2025 edition) - Genius Lab Gear

Last updated: February 2nd,

Xinxing FR supply professional and honest service.

Should you use 100% cotton or a polycotton blend? When do you need fire resistance? What does flame retardant mean? We’re here to help you find exactly what you need in all of these confusing options!

Your type of research will determine what lab coat is best for you. Healthcare professionals and researchers working with hazardous materials shouldn’t wear the same lab coat. Fire resistance often comes at a cost of chemical resistance and vice versa. So…

Which lab coat material is right for you?

The fabric you choose makes all the difference. This simple guide walks you through the most common fabrics used for lab coats, how to choose the correct lab coat fabric, and how to clean each type of lab coat.

100% Cotton Lab Coats

Cotton lab coats (like these) are incredibly comfy, lightweight, and long-lasting. It's the preferred material for lab coats by many scientists and is often required for college chemistry lab. Cotton is a breathable fabric, although it is frequently combined with polyester since it wrinkles readily. It may also come with fire-resistant (FR) coatings, however, industrial laundering and acids can degrade this coating. It sometimes has a stain-release finish, but this can also deteriorate over time.

Cotton lab coats are somewhat solvent-resistant but susceptible to acid spills so barrier layers like long butyl gloves should be worn with these coats when handling strong acids. High-quality lab coats are often 100% cotton and are usually more expensive than poly-cotton blends. Cotton can be mixed with other fibers for wrinkle-resistance and flexibility while maintaining its FR rating, like the 88% cotton/12% nylon blend commonly used.

✅Pros: Good for freshman chemistry lab, clinical settings, and research laboratories where there is some work with flammables, heat, and flame, and where splash resistance to acids is not a concern. Usually the most comfortable fabric.

❌Cons: When working with corrosive materials like acids, cotton lab coats should be accompanied by a chemical splash apron and long acid-resistant gloves to cover arms. Cotton may also shrink if laundered at high temperatures.

Here is a short video showing a durable cotton lab coat versus others blended with synthetics:

100% Polyester Lab Coats

Polyester is a synthetic material that is basically a weave of plastic fibers. Polyester is robust and long-lasting. It’s easier to care for and dries considerably faster than cotton, and it also provides a good “barrier” to acids and biological contaminants because it does not absorb liquids. It's also less expensive to manufacture than cotton. This makes it commonly used for biomedical research and blood testing labs.

However, polyester is a huge safety hazard when working around heat or flames like Bunsen burners or hot plates. Polyester should not be used in environments with pyrophoric chemicals, open flames, or any flammable risks, as it burns easily and melts to your skin, inflicting serious skin burns while trapping you inside.

✅Pros: It’s suitable for biomedical laboratories where biological pathogens and diseases are present. It's inexpensive, doesn't shrink, and keeps contaminants on the outer surface.

❌Cons: Uncomfortable, scratchy and stiff. Melts easily and should not be used around heat sources or where combustible solvents are present.

Cotton lab coats treated with flame retardant coating

The chemical treatment given to these fabrics in the factory gives them their flame retardant properties, not the inherent properties of the fiber. This chemical treatment soaks through the fiber and binds it throughout the fabric. The fabric becomes flame retardant and maintains that property throughout the garment's lifetime unless you break the manufacturer's recommended washing conditions which can include using high-temperature water or bleach during laundering.

Cheaper FR-treated materials wear down quickly when washing, but some more advanced brands like Westex say that their FR treatment will remain effective for the lifetime of the garment. These materials have similar properties and performance to 100% cotton plus the enhanced resistance to flames.

✅Pros: For labs with a fire concern, this is preferable to poly/cotton. Somewhat solvent-resistant.

❌Cons: Not fluid resistant; especially susceptible to acids.

Polyester/Cotton Blend Lab Coats

Most cheaper lab coats (<$30) are made of a polyester and cotton blend. It's breathable, light, and simple to wash, with moderate splash and chemical protection (though this is dependent on the manufacturer). Polyester-cotton blends with at least 35% cotton are appropriate for usage in an atmosphere without open flames, albeit they are not as soft and breathable as 100% cotton. They are good for doctors, pharmacists, and clinical settings but are typically not allowed in college chemistry lab courses because of the open flames.

Poly/Cotton Blend Chemical Properties Flame Resistance Durability 80/20 Poly/Cotton Blend Higher polyester content makes it suitable for working with chemicals or biological materials Higher polyester content is NOT suitable when working with flammable powders or solvents Higher polyester content makes it more durable and easy to launder 65/35 Poly/Cotton Blend

A minimum of 65% polyester gives good protection against acids

Not flame resistant but can be used when there are no open flames, hot plates, or strong oxidizers Less durable than 80/20 blend, still wrinkle-resistant 40/60 Poly/Cotton Blend

Not recommended when working with acids

Not flame resistant but can be used for an environment where there are no open flames, hot plates, or strong oxidizers Low polyester decreases durability

✅Pros: Appropriate for use in clinical settings and research laboratories that handle biological materials without heat or flame. Durable and inexpensive.

❌Cons: It melts easily to your skin and is not considered appropriate for working with flammable materials, open flames, or near high heat sources. Typically not as comfortable or breathable as 100% cotton.

Nomex Lab Coats

Nomex is one of the more expensive options on this list, but it's ideal for environments with significant fire hazards, open flames, electric arc hazards, or pyrophoric compounds. It is difficult to ignite and acts as a fire and heat barrier. Because the fibers are inherently flame resistant, not just coated, the flame resistance is retained in industrial laundering as long as bleach is not used. Most FR clothing for firefighters and stunt doubles are made from Nomex.

✅Pros: It's tough, flexible, and tear-resistant, as well as resistant to most chemicals. Appropriate for use in research facilities where open flame and pyrophoric substances are common and pose a serious fire risk.

❌Cons: When exposed to chlorine bleach, Nomex decomposes. Susceptible to non-polar organic solvents like acetone. Most lab coats made of Nomex are over $120. Style and color options with Nomex are extremely limited.

Nomex IIIA Lab Coats

The Nomex IIIA interlock knitting fabric is made up of 93%Nomex, 5% Kevlar, and 2% P-140. In the event of a fire, Nomex IIIA is a flame-resistant, high-temperature-resistant fiber that does not melt or drip. You’ll often see this marketed as “Shield CXP” which gives the rare combination of FR and CP (Chemical Protection).

The capacity of Nomex to carbonize and thicken when subjected to severe heat is a major factor in the protection it provides. This common reaction strengthens the barrier between the heat source and the wearer's skin, reducing burn injuries.

When exposed to heat and flame, the 5% Kevlar adds extra strength and structural integrity. Electrostatic discharge (ESD) protection comes from the 2% P-140 electrically conductive fibers. Nomex IIIA also has better chemical resistance than regular Nomex.

✅Pros: The flame-resistant protection of Nomex IIIA fabric cannot be washed out or worn away, unlike flame-retardant treatment applied to the surface of cotton or cotton blends. This is the most protective material currently on the market.

❌Cons: Lab coats made of Nomex IIIA are usually over $200 and have limited color and style options. The chemical resistance may deteriorate if laundered with bleach. Susceptible to non-polar solvents like acetone.

Polypropylene Lab Coats

Most disposable lab coats are made of a heavy polypropylene weave. It's actually light and breathable, with high resistance to moisture absorption providing great “barrier” protection to biological materials and dust mitigation in clean rooms. Carbon fibers are sometimes added to polypropylene lab coats to improve their antistatic (ESD) properties. If you work in a biohazard lab or semiconductor fab, you may need to wear a disposable lab coat that is made from polypropylene.

✅Pros: Best in biomedical laboratories where pathogens and cross-contamination are a concern. It’s a short-term use item that is also inexpensive.

❌Cons: When exposed to UV light, it swiftly degrades and is extremely combustible near flames. They also tear easily at the seams and pockets.

Nylon blend Lab Coats

Nylon is a petrochemical-based synthetic fiber. It is recognized for its excellent softness, strength, and durability. Nylon is easy to dye and it is available in a wide range of colors. Because nylon melts easily when exposed to fire, it needs to be woven in small fractions with flame-resistant materials.

Nylon is not usually used by itself to make lab coats. Cotton/nylon blends such as "88/12", the most common can give better wrinkle resistance, stretch and durability than 100% cotton. Some 88/12 blends are FR-rated, but the FR performance varies by manufacturer.

✅Pros: Lightweight and strong. It’s also wrinkle-resistant and easy to launder.

❌Cons: Cannot be used in high concentrations while maintaining flame resistance. 12% nylon in cotton can be FR rated if the fabric is treated by the manufacturer.

Modacrylic Lab Coat Blends

Modacrylics are a type of synthetic copolymer. One of the benefits of the Modacrylic lab coat is that it is exceptionally resistant to rips and tears, as well as having great wrinkle resistance. Modacrylic is a soft, durable, and pleasant fabric that is also easy to care for. It's often used as a blend with other fibers like Lyocell and Aramids in the Westex DH fabric, which is FR and arc-flash rated. This material is only advised when your safety officer specifically recommends it for your work environment.

✅Pros: It's fire-resistant, resistant to chemicals and solvents, rip- and tear-resistant, and doesn't wrinkle easily.

❌Cons: It is heat-sensitive and should not be steamed or washed at high temperature.

Rayon Lab Coat Blends

Rayon is a fabric manufactured from purified cellulose fibers, usually extracted from wood pulp. It's less expensive than cotton, but it has similar properties such as being breathable, lightweight, and absorbent, making it a popular choice for manufacturers trying to add some comfort to their low-cost polyester lab coats.

It's common to have blends of around 50% polyester, 45% Rayon and a few percent Spandex for a very breathable, stretchy and wrinkle-free lab coat. However, Rayon is easily degraded by acids and is only recommended in light-use environments where chemical and fire hazards are not present. These should normally not be used in non-clinical research environments.

✅Pros: It’s cheap and fairly durable.

❌Cons: It’s not great against acids or liquids and catches fire easily.

Tyvek Lab Coats

Rather than a fabric type, Tyvek refers to a brand. Tyvek garments are made of flash spun high-density polyethylene, a nonwoven material that is exclusive to DuPont. You may have felt it before if you've ever come across those fibrous tear-resistant off-white large envelopes or seen a pro painting crew in white jumpsuits.

It provides an ideal balance of protection, durability, and comfort. It’s commonly used for special applications that require total impermeability of dust and dirt particles. Many professionals use this type of coverall when dealing with substances such as asbestos, lead dust, spray paint, and radioactive substances.

✅Pros: Extremely durable, rip and tear-resistant. Great for protecting against airborne biological and radioactive material.

❌Cons: It's not a good idea to use it in places where there's a high risk of fire. Not as comfortable or breathable as cotton lab coats.

ESD/Anti-Static conductive lab coats

ESD/anti-static lab coats prevent electrostatic discharge and keep the wearer safe in static-prone areas. Anti-static lab coats are used in a variety of settings, including technology manufacturing, explosive environments, fire control, and electrical work. Typically, it's constructed of a poly-cotton blend with a few percent by weight of conductive fibers aligned vertically to “ground” the wearer. ESD lab coats can be made of many materials with widely varying properties.

✅Pros: Prevent electrostatic discharge. Provide a good barrier against water-based liquids, dust particles, and are resistant to light chemical splash.

❌Cons: Usually no flame resistance. Often ESD protection is an unnecessary feature that adds cost.

Lab Coat Fabric Weight Guidelines

Do you ever see words like "7 oz cotton" or "142 gsm Nomex" when choosing a lab coat? These are the fabric weights, which refer to what a square yard of fabric would weigh (in ounces) or a square meter would way (in grams for "gsm"). You can convert between these, but for reference, 5 oz is 142 gsm and 7 oz is 198 gsm.

So what fabric weight is good for a lab coat? Consider the breathability of the fabric, the temperatures you're working in and whether or not you're worried about puncturing or tearing.

• 5 oz or less would be considered "light weight" for lab coats
• 6-7 oz is usually comfortable if it's cotton, and is medium weight
• 8-10 oz would be considered heavy-duty for a lab coat

Also make sure you don't confuse the fabric weight with chemical or fire protection. It really isn't correlated. You'll need to check the stats on the lab coat from the manufacturer to understand the safety limitations of each material. For example, a 4.5 oz Nomex IIIA lab coat gives much better protection than a 10 oz cotton/poly blend.

For more information, please visit Pure Cotton Flame Retardant Fabric.

What is the difference between Flame Resistant (FR) and Flame Retardant Lab Coats?

Flame resistant (FR) lab coats are made from materials that are intrinsically non-flammable like Nomex, while flame-retardant lab coats are made from materials that can normally catch fire but are chemically treated in production to burn slowly or self-extinguish, like cotton.

The “FR” acronym typically applies to Flame Resistance, also known as Fire Resistance, which is normally preferred over Flame Retardant materials. However, some textile manufacturers like Westex have data showing that their FR treatment process is so good, it doesn't degrade during washing if the right laundering conditions are used.

FR lab coats should use “NFPA ” certified materials, which will be noted on the tag. This is a minimum performance specification by the National Fire Protection Association that helps standardize claims of FR protection across various materials and designs. In many labs, FR lab coats are a different color to avoid mix-ups and improve compliance.

Both fabrics and specific lab coats can be “FR” rated and need to be certified individually with several flammability tests. Although FR fabric generally gives a lab coat good protection, design flaws such as large vents or melting fasteners could negate the performance of the fabric.

The NFPA certification is a pass/fail test, with the passing criteria including less than 50% body burn in a simulated manikin burn test. Some “FR” lab coats may pass with 40% body burn while the very best materials may pass with only 10% body burn. Check the manufacturer’s NFPA testing certificate for this “body burn” report if this level of detail is important for your job function. Remember, these materials are simply meant to not make the fire worse (like polyester would). They don’t give 100% protection in serious fires.

If you use a Flame Resistant or Flame Retardant lab coat, you must be very careful to launder them within the conditions set by the manufacturer. Common treatments like bleach and very high temperature water can reduce the performance and put you at risk. Spilling acids on your coat can also locally degrade the FR protection.

How to Clean and Wash Lab Coats in Research

When was the last time your lab coat was washed? Never?! Most lab coats should be washed regularly to remove chemical and biological residue that could harm you or contaminate your experiments.

If you’re used to throwing all of your laundry in a single load on hot, don’t do that here! You can ruin a great lab coat by washing it the wrong way. Bleach is incompatible with Nomex® and Fire Resistant lab coats. If available, use a dedicated on-site facility or off-site contractor who has been trained in potential hazards and washing conditions.

A weekly wash schedule is recommended for heavy use; washing should be monthly at worst for less regular use. Always wash or discard lab coats immediately after significant spills.

If your institution does not have professional laundering available, lab coats should be double-bagged for home transportation and cleaned separately from normal clothes. Never home-wash lab coats that could have contamination from carcinogens, biologically-harmful chemicals, dangerous pathogens, or corrosive chemicals.

Best practices for washing your lab coat:

• Unbutton all buttons, but zip all zippers before washing. Empty pockets!
• Check your lab coat tag and the manufacturer’s website for washing recommendations.
• The hottest water setting is often necessary for good cleaning, but can also ruin some lab coat materials.
• Never use bleach on lab coats unless the tag specifically says it’s OK. Bleaching an FR lab coat could reduce the fire resistance and allow burns when you think you’re protected.
• Dry according to the directions on the tag.
• Run the machine empty with bleach on hot to disinfect and clean the washing machine of any residual contaminants.

Chemical lab coat handling: Cleaning and Disposal

If a significant chemical spill occurs on clothes, or if the spilled substance is particularly toxic, corrosive, or persistent (non-evaporating), the lab coat must be disposed of according to hazardous waste disposal standards and will not be accepted for washing.

Contaminated lab coats should be thrown away and should not be washed if they have been contaminated by:

1. Corrosives or strong acids
2. Materials that can flow through Nitrile gloves (for example, organometallics such as methyl mercury); or
3. More than 250 milliliters of:

• Carcinogens
• Teratogens
• Toxic substances with an LD50 of 50 mg/kg.

A coat can be professionally washed and reused if the spill does not meet any of the above conditions.

Biological lab coat handling: Cleaning and Disposal

• For BSL-1 work, autoclaving before washing is recommended but not always necessary if there were no known contaminations or spills. Check with your institution.
• For BSL-2 work, autoclaving is required before washing your lab coat.
• If a known or suspected biological agent contamination/spill occurs all lab coats should be autoclaved (regardless of risk group assessment level or biosafety lab level).
• Biologically contaminated lab coats that are also contaminated with chemical or radioactive substances should not be autoclaved. This can cause dangerous chemical reactions or explosions.

Instructions for autoclaving lab coats:

1. Check with the manufacturer that the lab coat is autoclavable.
2. Collect lab coats in a lidded container with a Biohazard label, lined with an autoclave bag and labeled with contents and date.
3. Autoclave in a clear bag or well-labeled opaque bag. You don't want anyone to mistake this bag for waste!
4. Decontaminate the lab coats on a solid or pre-vac cycle in the autoclave. Use a Chemical Integrator (CI) for load verification.
5. After the autoclave, lab coats should be laundered by a professional service whenever possible.

Radiation hazard lab coat handling: Cleaning and Disposal

If a spill on the lab coat contains radioactive material, immediately notify EHS and/or Facilities Management. The lab coat will be sealed and disposed of as radioactive waste in a sealed bag.

References

MIT Lab Coats selection, use, and care

OHS Online: Do’s and Don’ts of lab coats

Columbia University Lab Coat information table

Virginia Tech PPE Use Guidelines

Guidelines for Selection, Use, and Care of Laboratory Coats (Univ. of Akron)

The Lab Coat Project - 100% Cotton Lab Coat for Scientists

We were a little frustrated with all the "doctor"-focused options out there, so after gathering feedback from over scientists, we designed, tested, and are launching our own. 

With strong metal snaps, long knit cuffs, a convertible up/down collar, more pockets than any other lab coat and even an adjustable belt to give you some shape, we really think this is going to be the best lab coat for general chemistry lab classes ever made. 

After 2 years of development and testing, these are now in stock and ready to ship. Visit The Lab Coat Project page here to see more details, or check our Amazon Store Page if that's easier for you!

Frequently Asked Questions (FAQs):

What are lab coats made of?

The most common materials are cotton and cotton/polyester blends. Cotton can be FR treated for better flame resistance. The best (and most expensive) material is Nomex IIIA, used by chemists around very dangerous chemicals. Other jobs require lab coats made out of polypropylene or Tyvek.

Do lab coats have to be 100 percent cotton?

Lab leaders will recommend 100% cotton lab coats when working around open flames like a Bunsen burner. Cotton burns more slowly and will not melt to your skin like polyester. However, other fabrics like Nomex, Nomex IIIA or FR-treated cotton blends can be substituted for 100% cotton if it has a NFPA fire-resistant certification.

Are cotton lab coats flammable?

A 100% cotton lab coat will still catch fire, unless it is treated with FR chemicals in production. However, cotton is preferred over polyester when working around open flames and heat sources. Always check the tags for NFPA certifications if flame resistance is important in your work.

How often should you wash your lab coat?

Wash lab coats weekly if using for several hours a day. Wash at least once per month for less frequent use. Refer to our washing guide above for care instructions by material and field of work.

How do I choose a lab coat?

Start by identifying the fabric you need based on the hazards in your workplace. This guide will help. If you deal with chemical and fire hazards, you want a closed collar, knit cuffs and snaps for quick removal. With those elements fixed, look for the best fit that will ensure you love wearing it every day.

Today we are laying it all open and getting to the meat of the matter. We're answering the burning questions (see what we did there!) that we're often asked, hoping to give the world a clearer, 360 view of what fire retardant textiles are all about.

What makes a fabric fire retardant?

Fabric is classified as fire retardant fabric based on, unsurprisingly, the time it takes for the fabric to burn and at what temperatures it does so. Our fabrics undergo rigorous testing in independent laboratories. The fabric is then assessed on a range of criteria to show the strength of the fire retardant properties, so that the end consumer can know exactly what they're investing in.

Tests are carried out in laboratories like Labotex for the speed at which the fabrics catch fire, using methods such as a gas burner or gas flame, smoldering cigarette, a small stack of dry wood

There are also worldwide furniture standards that measure the fire retardant properties of upholstered furniture through testing such as Britain's BS . Check out our post 3 things you need to know about upholstery fabric testing for a read jam-packed with information.

FR-One: inherently fire retardant

Fabric may be naturally fire retardant due to the fiber's innate properties: FR-One uses 100% Inherently FR Polyester for this same reason. Polyester is also easy care and durable, whereas fabrics such as wool could shrink after washing - which isn’t something you want happening on your furniture! 

Besides durability and fire retardancy, our fabrics are just, well, amazingly soft. No really. You need to feel it to believe it. We’re all about that luxurious feel here, combining an easy elegance with a coziness you can feel.

Check out our dedication to the art of hygge here.

While some fabrics can also be treated with a fire retardant chemical that resists heat and helps to extinguishes flames, this is not the way FR-One safeguards our fabrics. FR-One Fire Retardant fabrics begin by perfecting the fibers with Inherent Fire-Retardant characteristics (IFR), a quality that is embedded in the molecular structure of the fiber and will therefore never diminish.

Textiles that are naturally fire retardant

The best solution is inherent FR polyester, because it starts us off with a naturally high base level of fire resistance - and then we add the FR-One magic. This guarantees that our fire retardant fabrics look and feel just like natural ones, and that's even before they undergo rigorous testing for high safety standards!

Certain textiles do naturally resist fire better than others. For example:

• Wool is generally considered the most fire retardant natural fiber, as it is difficult to ignite and may extinguish smaller flames on its own.
• Silk also burns slowly, is difficult to ignite and may self-extinguish under certain circumstances.

Acrylic, polyester and nylon are also all considered fire retardant fabrics, as they catch fire at a much higher temperature than natural fibers.

3 ways you can make a fabric fire retardant

There are three different ways a fabric can be made fire retardant, so we'll start off with the best and most efficient way: it's when the FR properties are inherent in the yarn itself.

This is what makes FR-One special. We do not apply treatments or finishes to fabrics, nor do we coat our fabrics. There are ways though to make your textiles fire retardant using chemical treatments and finishes, and we'll have a quick look at those below.

There are two types of treatment commonly used in fire retardant upholstery:

Coating: With the coating technique, a fire retardant back-coating is applied to the fabric in question. This stiffens the fabric, making it better for upholstery use. The coating technique is considered less suitable as curtain fabric though, as the drape of the material end up less natural than with other fabric treatments.

Dipping: Another common fire-treatment method is known as chemical dipping, which is more often used for fabrics made from natural fibers (or that have a high percentage of natural fibers). As the technique suggests, the fabric is dipped into a chemical solution, which absorbs into the fibers, creating a barrier between the fiber and the flame.

Should the fabric catch fire, the chemicals applied during the fabric treatment process are activated by the heat, triggering a chemical reaction which extinguishes the flame - similar to the way chemical fire-extinguishers work.

Inherently fire retardant?

Not wanting our beautiful designs to have anything to do with fire extinguishers, however, we went down a different path. We spent years researching and producing and testing, crafting our fabrics from the fiber up to be fire retardant as default. The actual chemical structure of the fabric itself is not flammable: that's what we mean when we say inherently fire retardant.

These intrinsic properties can never be removed from the molecular structure of the fabric. What you buy from FR-One will remain fire retardant...permanently.

Just how washable is your fire retardant upholstery anyway?

What about caring for this indestructibly fire retardant textile though? Surely that's going to be difficult? Well, one of the most important factors when investing in fire retardant upholstery is understanding the manufacturer cleaning recommendations: we’re going to tell you ours.

You've probably read that washing may destroy your fire retardant fabric's protection, but rest assured: with our fabrics this is not the case. All FR-One fabrics are machine washable and the effectiveness of the fabric won't fade due to washing.

In the case of cotton/nylon blends for example, washing the fabric with chlorine bleach will remove their flame-resistant properties - that's another reason we went for 100% polyester.

Fun fact: FR-One fabrics use less water to wash, thanks to their lower water absorption rate and higher dehydration characteristics. Save energy and the planet, one fabric wash-load at a time!

Safety, design and choices

Choosing the right fire retardant upholstery is a delicate balance between safety and design.

Without a solid fire retardant qualification, you may not meet safety standards, but a poorly-designed fabric might ask you to sacrifice design. Why choose between form and function when you can have both? See how our Lithology range epitomizes this vision

FR-One fabrics are high quality, design-forward and both natural looking and feeling. On top of all this, we meet fire safety standards the world over, ensuring that our fabrics are used globally, from Paris to New York, Dubai to Berlin.

FR-One fabrics are found even at sea because we pass IMO FTPC P7 and IMO FTPC P8, certifying us for Maritime use (PS: these are the hardest tests to pass).

Here to help

If you need help choosing fire retardant textiles for your next design project, get in touch and we'll be happy to help you out!

Contact us to discuss your requirements of Flame Resistant Fabric By The Yard. Our experienced sales team can help you identify the options that best suit your needs.