If you are new to mechanical keyboards, switch specifications can look very confusing at first. Terms like material, actuation force, spring weight, travel distance, or factory lubed are everywhere, but understanding them is actually much easier than most people think. These specifications mainly determine how a switch feels, sounds, and performs during typing or gaming.

Keyboard Switch Material

The materials used in a switch have a huge impact on both sound and feel. Different plastics create different acoustics, smoothness characteristics, and bottom out behavior. In modern switches, material choice is one of the biggest factors behind whether a switch sounds clacky, poppy, thocky, or creamy.

What Makes a Switch Sound Clacky and Poppy?

Clacky switches usually use harder and reinforced materials that reflect vibration instead of absorbing it. This creates stronger high-frequency resonance, louder bottom out acoustics, and a brighter sound profile.

Common clacky materials include:

• POM
  
• LY
  
• Nylon + fiberglass
  
• PC
  
• Strengthened POM
• Ceramic infused POM
  
• P2–P5 materials
  
• M4–M5 materials
  
• N1–N5 nylon blends
  

These materials are commonly found in many HMX-style switches and modern enthusiast switches designed for bright and energetic acoustics.

Mold design also matters heavily. Clacky switches usually use:

• Long pole stems
  
• Shorter total travel
  
• Flat stem pole tips
  

Flat stem tips create a larger contact surface area during bottom out, which produces a louder and higher-pitched impact sound. Combined with harder plastics and shorter travel, the result is the classic clacky and poppy sound profile many enthusiasts love.

What Makes a Switch Sound Thocky and Creamy?

Thocky and creamy switches usually use softer materials that absorb more vibration and reduce harsh resonance. Instead of producing a bright and sharp sound, these materials create deeper, smoother, and fuller acoustics.

Common thocky and creamy materials include:

• PA12
  
• UPE
  
• PA66 without fiberglass
• T2–T6 materials
  
• L4 POM
  
• U2–U5 UPE blends
  

These materials lower overall pitch and soften the bottom out sound, which creates the deep and creamy sound profile popular in many modern builds.

Mold design is also extremely important here. Many modern thocky switches use waffle-shaped or grid-shaped stem tips. Unlike flat stem tips, these designs reduce the contact surface area between the stem and bottom housing during bottom out.

This creates:

• Lower pitch
  
• Softer bottom out
  
• Reduced harshness
  
• More muted acoustics
  
• Slightly cushioned typing feel
  

This is one of the reasons switches like modern PA12 or UPE-based switches sound much deeper and creamier compared to traditional clacky switches.

Actuation Force

Actuation force refers to how much force is required for the keypress to register on your keyboard.

Lower actuation force means:

• Easier and lighter typing
  
• Faster feeling keypresses
  
• Less finger fatigue
  

Higher actuation force means:

• More resistance
  
• Heavier typing feel
  
• More deliberate keypresses
  

Most people prefer lighter actuation weights around 35g–45g for daily typing and gaming, but this is completely personal preference.

Travel Distance

Travel distance refers to how far the switch moves during a keypress.

There are usually two measurements:

• Pre-travel: distance before the key activates
  
• Total travel: full distance before bottom out
  

Shorter travel switches usually feel:

• Faster
  
• Sharper
  
• More responsive
  

Longer travel switches usually feel:

• Softer
  
• More traditional
  
• More cushioned during typing
  

Gaming switches often use shorter pre-travel for faster actuation.

Spring Weight

Spring weight controls how heavy or light the switch feels overall. Most switch specifications show:

• Actuation weight
  
• Bottom out weight
  

Bottom out weight is the force required to fully press the switch down.

Lighter springs are usually better for:

• Long typing sessions
  
• Office work
  
• Fast gaming
  

Heavier springs are usually preferred by users who want:

• More control
  
• Stronger feedback
  
• Reduced accidental keypresses
  

Choosing spring weight is mostly about personal comfort and typing habit.

Sound Profile

Sound profile describes how a switch sounds during typing.

Common sound profiles include:

• Clacky
  
• Thocky
  
• Creamy
  
• Poppy
  
• Deep
  
• Marbly
  

Sound is mostly determined by:

• Material choice
  
• Mold design
  
• Stem structure
  
• Keyboard build itself
  

For example:

• Hard materials and flat stem tips usually sound clacky and loud
  
• Softer materials and waffle stem tips usually sound deeper and creamier
  

Factory Lubed

Factory lubed means the manufacturer already applied lubricant to the switch before packaging.

Lubrication helps:

• Reduce scratchiness
  
• Improve smoothness
  
• Reduce spring noise
  
• Create cleaner sound
  

Modern factory lubrication has improved dramatically in recent years. Good factory lubed switches can already feel extremely smooth without requiring users to hand-lube them manually.

However, lubrication quality still varies between manufacturers. Premium enthusiast switches usually have much more consistent factory lubrication compared to budget switches.

Once you understand these basic specifications, choosing a keyboard switch becomes much easier. Most switches are simply different combinations of materials, spring weights, mold designs, and tuning choices designed to create different typing experiences.