The casework in your laboratory is not just furniture — it defines the layout, provides storage, supports equipment, and takes daily abuse from chemicals, moisture, and constant use. Choosing the right casework material is one of the most important decisions in any lab project.
This guide compares the four main casework materials — painted steel, stainless steel, wood, and phenolic — so you can pick the right one for your lab environment, budget, and long-term needs.
Why Casework Material Matters
Different laboratories face different challenges. A chemistry research lab handles corrosive acids daily. A quality control lab needs durable, easy-to-clean surfaces. A university teaching lab needs furniture that survives thousands of students over its lifespan.
The casework material you choose determines:
- How well the cabinets resist the chemicals in your lab
- How long the furniture lasts before needing replacement
- How easy it is to clean and decontaminate
- How the lab looks and feels to the people working in it
- What the total cost of ownership is over 15 to 25 years
There is no single best material. The right choice depends on your specific application.
Painted Steel Casework
Painted steel is the most widely used casework material in laboratories worldwide. It consists of cold-rolled steel panels that are welded or assembled and then finished with a chemical-resistant powder coating or epoxy paint.
Strengths
- Durability — steel construction handles heavy loads and daily wear without structural degradation
- Chemical resistance — modern powder coatings resist most common lab chemicals including dilute acids, bases, and solvents
- Cost-effective — typically the lowest upfront cost among casework materials
- Color options — powder coating is available in a wide range of colors to match your lab design
- SEFA 8 compliant — meets the industry standard for laboratory furniture quality
- Fast availability — steel casework is commonly stocked by manufacturers, resulting in shorter lead times
Limitations
- If the coating is chipped or scratched, the exposed steel can rust
- Concentrated acids (especially hydrochloric and sulfuric) can attack the coating over time
- Not ideal for wet environments where standing water is common
Best Applications
General-purpose labs, educational labs, quality control labs, physics labs, electronics labs, and any environment where chemical exposure is moderate and routine cleaning keeps surfaces maintained.
Stainless Steel Casework
Stainless steel casework uses 304 or 316 grade stainless steel for all exposed surfaces. It is the premium choice for labs that demand the highest levels of cleanliness and corrosion resistance.
Strengths
- Superior corrosion resistance — handles acids, bases, and solvents without coating degradation
- Easy to sanitize — smooth, non-porous surfaces can be sterilized with standard disinfectants
- No coating to chip — the material itself is resistant, not just the surface finish
- Moisture resistant — performs well in wet labs and wash-down environments
- Long lifespan — 25+ year service life with minimal maintenance
Limitations
- Higher cost than painted steel or wood
- Can show fingerprints and water spots (brushed finishes help)
- Chloride exposure (bleach, saline) can cause pitting on lower grades
- Limited aesthetic options — stainless looks industrial
Best Applications
Clean rooms, bacteriology labs, food science labs, pharmaceutical manufacturing, hospital labs, and any environment where contamination control and frequent sanitization are required.
Wood Casework
Wood casework uses solid hardwood or high-quality wood veneers over engineered substrates. The wood is finished with chemically resistant lacquers or catalyzed coatings that protect against spills and everyday wear.
Strengths
- Premium appearance — rift-cut oak and other hardwoods create a warm, professional look
- Good chemical resistance — catalyzed finishes handle most common lab chemicals
- Sound dampening — wood absorbs sound better than metal, reducing lab noise
- Customizable — available in various wood species, stains, and configurations
- Comfortable feel — researchers often prefer the look and feel of wood
Limitations
- Higher cost than painted steel
- Moisture can damage wood if the finish is compromised
- Strong oxidizing acids can attack wood finishes
- Longer lead times for custom configurations
- Not suitable for clean room or high-humidity environments
Best Applications
University research labs, academic institutions, corporate R&D facilities, and administrative lab spaces where appearance matters and chemical exposure is moderate.
Phenolic Casework
Phenolic casework is made from phenolic resin panels — layers of kraft paper or other fibers saturated with phenolic resin and cured under heat and pressure. The result is a solid, non-metallic material that resists chemicals, moisture, and biological contamination.
Strengths
- Exceptional chemical resistance — handles concentrated acids, bases, and solvents that would damage other materials
- Completely moisture resistant — will not rust, rot, swell, or delaminate
- Mold and bacteria resistant — non-porous surface does not support microbial growth
- Lightweight — easier to install and reconfigure than steel
- Impact resistant — does not dent like metal or chip like coatings
Limitations
- Higher cost than painted steel and some wood options
- Limited color options compared to powder-coated steel
- Can be damaged by open flame or extreme heat
- Joints and edges need proper sealing to maintain chemical resistance
Best Applications
Wet chemistry labs, pathology labs, forensic labs, semiconductor clean rooms, and any environment with heavy chemical use, high humidity, or strict contamination control requirements.
Material Comparison Summary
| Property | Painted Steel | Stainless Steel | Wood | Phenolic |
|---|---|---|---|---|
| Chemical resistance | Good | Excellent | Good | Excellent |
| Moisture resistance | Moderate | Excellent | Low | Excellent |
| Durability | High | Very high | Moderate | High |
| Cost | $ | $$$$ | $$ | $$$ |
| Appearance | Professional | Industrial | Premium | Functional |
| Sanitization | Good | Excellent | Moderate | Excellent |
| Lead time | Short | Moderate | Long | Moderate |
| Lifespan | 15-20 years | 25+ years | 15-20 years | 20-25 years |
How to Choose: Decision Framework
Use these questions to narrow down your options:
- What chemicals will contact the casework? If you handle concentrated acids or harsh solvents daily, phenolic or stainless steel is the safest choice.
- How wet is the environment? Labs with frequent water use, wash-down protocols, or high humidity should avoid wood and standard painted steel.
- What is your budget? Painted steel gives the best value for general-purpose labs. If budget is tight, start there.
- Does appearance matter? For visible spaces like corporate labs or university facilities, wood provides a premium look.
- What compliance standards apply? Clean rooms and pharmaceutical labs often require stainless steel or phenolic for contamination control.
- How long do you need the casework to last? For a 25-year installation, invest in stainless or phenolic. For a 10-year lease, painted steel may be sufficient.
Mixing Materials
Many labs use more than one casework material. Common combinations include:
- Painted steel base cabinets with epoxy resin countertops — the most popular general-purpose combination
- Stainless steel in wet areas and painted steel in dry areas of the same lab
- Wood casework in the main lab with stainless steel in the prep room
- Phenolic casework under fume hoods where chemical exposure is highest, with painted steel elsewhere
Labs USA carries all four materials in stock, which makes it practical to mix and match within a single project without dealing with multiple vendors or vastly different lead times.
SEFA 8 Standards
Regardless of material, all laboratory casework should meet SEFA 8 standards published by the Scientific Equipment and Furniture Association. SEFA 8 covers:
- Structural integrity — load-bearing capacity of shelves, drawers, and doors
- Hardware quality — hinges, drawer slides, and latches rated for laboratory use
- Finish quality — chemical resistance, adhesion, and durability of coatings
- Construction methods — welding, fastening, and assembly standards
All laboratory furniture from Labs USA meets or exceeds SEFA 8 requirements.
Frequently Asked Questions
Which casework material is best for a chemistry lab?
For labs that handle a wide variety of chemicals including concentrated acids, phenolic casework offers the best chemical resistance. Painted steel with proper chemical-resistant coating is a good budget alternative for labs with moderate chemical exposure.
How do I maintain painted steel casework?
Wipe spills promptly with a damp cloth. Use mild detergent for routine cleaning. Avoid abrasive cleaners that can scratch the coating. Touch up any chips or scratches with matching paint to prevent rust.
Is wood casework outdated?
Not at all. Wood casework with modern catalyzed finishes provides good chemical resistance and a premium appearance that many institutions prefer. It remains popular in university research labs and corporate settings.
Can phenolic casework be repaired if damaged?
Minor scratches can be buffed out. Deeper damage may require panel replacement. Because phenolic panels are solid through their thickness (not just coated), minor wear does not compromise chemical resistance.
What is the lead time for lab casework?
Lead times vary by material and customization. Labs USA keeps painted steel and stainless steel casework in stock for fast delivery. Wood and custom phenolic orders typically take 6 to 10 weeks. Contact Labs USA for current availability.
Need help choosing casework for your lab? Contact Labs USA for a free consultation. Our specialists will recommend the right material based on your chemicals, budget, and performance requirements.
