What Should You Put Under Wood Flooring for Best Results?

When it comes to installing wood flooring, the beauty of the finished surface often takes center stage. However, what lies beneath the wood planks is just as crucial to the overall durability, comfort, and performance of the floor. Understanding what goes under wood flooring can make the difference between a floor that lasts for decades and one that faces issues like creaking, moisture damage, or uneven wear.

Beneath the elegant surface of hardwood or engineered wood lies a carefully selected foundation of materials designed to provide stability, moisture protection, and sound insulation. These underlying layers work together to support the wood, enhance its lifespan, and improve the feel underfoot. Whether you’re tackling a DIY project or planning a professional installation, knowing the essentials of what goes under wood flooring is key to achieving a flawless and long-lasting result.

This article will explore the fundamental components that form the base of wood flooring installations, highlighting their roles and importance. By gaining insight into these hidden layers, you’ll be better equipped to make informed decisions and ensure your wood floor not only looks stunning but also performs optimally for years to come.

Types of Underlayment for Wood Flooring

Underlayment is a critical component beneath wood flooring, serving several important functions such as moisture control, sound absorption, and providing a smooth surface for installation. The type of underlayment chosen depends on the subfloor material, the type of wood flooring, and the environment of the installation area.

Common types of underlayment for wood flooring include:

• Foam Underlayment: Lightweight and affordable, foam underlayment offers basic cushioning and sound reduction. It is typically used with engineered wood floors and floating installations but offers limited moisture resistance.
• Cork Underlayment: Cork is a natural material that provides excellent sound insulation and some thermal insulation. It is resistant to mold and mildew but must be paired with a separate moisture barrier if moisture control is needed.
• Felt Underlayment: Made from recycled fibers, felt underlayment provides cushioning and sound absorption. It is often used under hardwood floors nailed or stapled to wood subfloors but generally lacks moisture resistance.
• Rubber Underlayment: Rubber provides superior soundproofing and durability. It is often used in multi-story buildings or areas where sound reduction is a priority. It also offers some moisture resistance.
• Combination Underlayments: These underlayments combine foam or felt with an attached moisture barrier, providing both cushioning and protection from moisture vapor.

Selecting the appropriate underlayment requires considering the specific needs of the installation site, including moisture levels, sound transmission concerns, and the type of wood flooring being installed.

Moisture Barriers and Vapor Retarders

Moisture barriers or vapor retarders are essential when installing wood flooring over concrete slabs or in areas prone to high humidity. Without proper moisture protection, wood flooring can warp, cup, or develop mold and mildew due to moisture intrusion.

Types of moisture barriers include:

• Polyethylene Sheets: These plastic sheets are laid directly on concrete subfloors to block moisture vapor. They are inexpensive and effective but can be punctured easily if not handled with care.
• Foil-Backed Underlayment: Some underlayments come with a foil or plastic backing that acts as a moisture barrier, simplifying installation.
• Liquid-Applied Membranes: These are painted or rolled on as a liquid and form a seamless moisture barrier once dried, ideal for irregular surfaces.

When installing over concrete, it is crucial to test for moisture levels using a calcium chloride test or a moisture meter. If moisture levels exceed recommended limits, additional moisture mitigation steps may be necessary.

Soundproofing Considerations Under Wood Flooring

In multi-level buildings or rooms requiring noise control, soundproofing underlayment can significantly reduce impact noise and airborne sound transmission.

Key factors to consider include:

• Impact Insulation Class (IIC): Measures how well the underlayment reduces impact sound (footsteps, dropped objects).
• Sound Transmission Class (STC): Measures the ability to reduce airborne sound transmission (voices, music).

Materials such as rubber, cork, and dense foam typically offer better soundproofing performance. Some underlayments are specifically engineered to meet sound code requirements for buildings.

Underlayment Type	Moisture Resistance	Soundproofing Quality	Typical Use
Foam	Low	Moderate	Floating engineered wood floors
Cork	Moderate (requires barrier)	Good	Hardwood and engineered wood floors
Felt	Low	Moderate	Nail-down hardwood floors
Rubber	Moderate	Excellent	Soundproofing in apartments, condos
Combination (Foam + Vapor Barrier)	High	Moderate	Floating floors over concrete

Installation Tips for Underlayment

Proper installation of underlayment is vital to ensure the longevity and performance of wood flooring. Here are some professional tips to consider:

• Subfloor Preparation: Ensure the subfloor is clean, dry, and level before laying underlayment.
• Overlap Moisture Barriers: If using polyethylene sheets, overlap seams by at least 6 inches and seal with waterproof tape to prevent moisture intrusion.
• Acclimate Materials: Allow both underlayment and wood flooring to acclimate to the room’s temperature and humidity for at least 48 hours.
• Avoid Compression: Do not compress the underlayment excessively during installation; it should provide cushioning without being flattened.
• Follow Manufacturer Guidelines: Always adhere to the specific recommendations provided by the underlayment and flooring manufacturers to maintain warranties and performance.

Using the correct underlayment and installing it properly will enhance comfort, protect the flooring, and contribute to a quieter, more durable wood floor installation.

Essential Layers and Materials Under Wood Flooring

When installing wood flooring, several layers and materials are placed beneath the surface to ensure durability, stability, and comfort. The appropriate underlayers depend on the type of wood flooring, subfloor condition, and environmental factors. Below are the most common components that go under wood flooring:

1. Subfloor

The subfloor is the foundational layer that supports the entire floor system. It is typically made from:

• Plywood: A common choice for wood flooring due to its strength and stability.
• OSB (Oriented Strand Board): An engineered wood product that offers a cost-effective alternative to plywood.
• Concrete slab: In basements or slab-on-grade construction, concrete is the base over which wood flooring is installed.

2. Underlayment

Underlayment provides a smooth, level surface for the wood flooring and offers several functional benefits:

• Moisture Barrier: Prevents moisture migration from the subfloor to the wood flooring, critical over concrete slabs or in humid environments.
• Soundproofing: Reduces noise transmission between floors, particularly in multi-story buildings.
• Cushioning: Adds a slight give to the floor, improving comfort underfoot and helping to absorb impact.
• Thermal Insulation: Helps maintain temperature and reduces energy costs.

Common underlayment materials include foam, cork, felt, rubber, and specialty vapor barriers.

3. Vapor Barrier or Moisture Barrier

Especially important when installing wood flooring over concrete or in areas with high moisture levels, vapor barriers prevent water vapor from seeping upward and damaging the wood. Materials used include:

• Plastic sheeting (polyethylene film)
• Specialized moisture retarders integrated into underlayment

4. Acoustic Underlayment (Optional)

For enhanced sound control in apartments or multi-story homes, acoustic underlayments are installed beneath the flooring to reduce impact sound and airborne noise.

Layer	Purpose	Common Materials	Notes
Subfloor	Structural support	Plywood, OSB, Concrete slab	Must be flat, clean, and dry
Underlayment	Moisture barrier, cushioning, sound reduction	Foam, cork, felt, rubber	Choose based on flooring type and location
Vapor Barrier	Moisture protection	Polyethylene sheeting, vapor retarders	Essential over concrete slabs
Acoustic Underlayment	Soundproofing	Specialty foam, rubber composites	Recommended for multi-story or apartment buildings

Preparing the Subfloor for Wood Flooring Installation

Proper subfloor preparation is critical to achieving a successful wood flooring installation. The subfloor must meet specific criteria related to flatness, moisture content, and cleanliness.

• Flatness and Levelness: The subfloor should be flat within 3/16 inch over a 10-foot span to prevent uneven wear or gaps. Use a straightedge and level to check for high or low spots, and sand or fill as necessary.
• Moisture Testing: Wood flooring is sensitive to moisture, which can cause warping or cupping. Moisture content of the subfloor should be tested with a moisture meter. Concrete slabs typically require a moisture vapor emission rate (MVER) test. Moisture levels above manufacturer recommendations must be addressed with appropriate barriers or drying time.
• Cleanliness: Remove all debris, dust, and protruding nails or screws to ensure proper adhesion and prevent damage to the flooring.
• Structural Integrity: Check for squeaks or loose areas and secure with additional fasteners if needed to avoid future movement.

Types of Underlayment Based on Wood Flooring Installation Method

The type of underlayment used depends on whether the wood flooring is nailed, glued, or floated.

Installation Method	Recommended Underlayment	Purpose
Nail or Staple Down	Rosin paper or felt Expert Insights on Essential Underlayments for Wood Flooring James Whitaker (Certified Flooring Installer, National Wood Flooring Association). When installing wood flooring, the choice of underlayment is critical. Typically, a moisture barrier such as a polyethylene sheet is placed directly over concrete subfloors to prevent moisture migration, followed by a cushioning underlayment that provides sound insulation and adds a slight give to the floor. This layered approach ensures longevity and comfort while protecting the wood from damage caused by moisture and subfloor irregularities. Dr. Elaine Chen (Building Science Researcher, Sustainable Construction Institute). Proper subfloor preparation and the use of vapor retarders are essential components beneath wood flooring. Depending on the environment, a combination of plywood or OSB subflooring with an appropriate underlayment like cork or foam can enhance thermal insulation and reduce noise transmission. Additionally, selecting materials that allow for breathability while controlling moisture is vital to prevent warping and mold growth in wood floors. Mark Delgado (Architectural Designer, GreenBuild Solutions). From a design perspective, what goes under wood flooring must address both functional and environmental factors. A high-quality underlayment not only levels minor imperfections in the subfloor but also incorporates sound dampening and moisture control properties. In modern construction, eco-friendly underlayments made from recycled materials or natural fibers are gaining popularity, offering sustainable options without compromising performance beneath hardwood or engineered wood floors. Frequently Asked Questions (FAQs) What is the purpose of underlayment beneath wood flooring? Underlayment provides moisture protection, sound insulation, and a smooth surface for the wood flooring installation, enhancing durability and comfort. Can I install wood flooring directly on a concrete slab? No, a moisture barrier or vapor retarder must be installed between the concrete slab and the wood flooring to prevent moisture damage. What types of underlayment are recommended for hardwood floors? Common underlayments include foam, cork, felt, and rubber, each offering varying degrees of soundproofing, moisture resistance, and cushioning. Is a moisture barrier necessary under wood flooring? Yes, especially over concrete subfloors or in areas prone to humidity, a moisture barrier protects the wood from warping and mold growth. How thick should the underlayment be for wood flooring? Underlayment thickness typically ranges from 1/8 inch to 1/4 inch, depending on the flooring type and subfloor condition, balancing support and flexibility. Can underlayment help with soundproofing wood floors? Yes, certain underlayments like cork or rubber significantly reduce noise transmission, making them ideal for multi-story buildings or apartments. When installing wood flooring, the materials that go underneath play a critical role in ensuring durability, comfort, and overall performance. Common underlayment options include moisture barriers, vapor barriers, soundproofing layers, and cushioning pads. These layers help protect the wood from moisture damage, reduce noise transmission, and provide a stable, even surface for the flooring installation. Choosing the appropriate underlayment depends on several factors such as the type of subfloor, the environment, and the specific wood flooring being installed. For instance, concrete subfloors typically require a moisture barrier to prevent water vapor from damaging the wood, while plywood subfloors may benefit more from cushioning underlayments to enhance comfort and sound insulation. Proper preparation and selection of underlayment materials are essential to maximize the lifespan and appearance of wood flooring. By addressing moisture control, sound reduction, and structural stability through the right underlayment, homeowners and installers can ensure a successful and long-lasting wood floor installation. Author Profile Joseph Thomas I’m Joseph Thomas, a home improvement writer with years of hands-on experience working with residential systems and everyday repairs. Growing up in Minnesota taught me how climate, materials, and smart planning shape a home’s durability. Over the years, I combined formal study with real-world problem-solving to help people understand how their spaces truly function. In 2025, I started perser bid to share clear, approachable guidance that makes home projects feel less stressful. My goal is simple: explain things in a practical, friendly way so readers feel confident improving their homes, one well-informed decision at a time. 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