Waterproof ESD laboratory chair – Spacetronik SPC-MATTI-10B [New]

2026-04-09

Working in a highly specialized environment – from EPA zones, through modern laboratories, to sterile treatment rooms – accepts no compromises. Every piece of equipment must be a precise tool.

We present Spacetronik SPC-MATTI-10B – an ESD laboratory chair that combines rigorous safety standards with unmatched ease of maintaining hygiene.

2-in-1 safety: ESD protection and sterile cleanliness

The biggest challenge in laboratories and medical facilities is dirt and the need for frequent surface sterilization. The SPC-MATTI-10B model solves this problem thanks to its innovative polyurethane upholstery.

Full waterproofness: The material is completely unaffected by liquid spills.
Instant disinfection: The surface allows quick removal of contaminants without the risk of damaging the upholstery structure.
ESD resistance: Effective protection against electrostatic discharge, essential in electronics services.

Ergonomics created for precision tasks

When designing the SPC-MATTI-10B model, we focused on maximum freedom of movement. The armless design eliminates physical obstacles while working at an assembly table, which combined with the anatomical backrest allows you to maintain precision for many hours.

Key features supporting your health:

Anatomical backrest: Precisely supports the lower spine, enforcing correct posture.
90°-135° tilt mechanism: Allows for quick position changes.
Comfortable seat: A specially selected foam density prevents pressure under the knees and improves circulation.
Certified stability: Class 3 gas lift (SGS) and a structure compliant with BIFMA standards guarantee safe operation under loads up to 150 kg.

Technical details that make a difference

Feature	Specification
Overall height	95 - 113 cm
Load capacity	Up to 150 kg
Height adjustment	44 - 54 cm
Upholstery material	Waterproof polyurethane
Castors	Polyurethane nylon (50 mm)

Where will Spacetronik SPC-MATTI-10B work well?

This chair is an investment that pays off in the form of no back pain and increased team efficiency. It is ideal for:

Chemical and research laboratories (resistance to substances and liquids),
Clinics and treatment rooms (easy sterilization),
Electronics services and EPA zones (antistatic properties),
Production lines (durability for multi-shift systems).

Do you want to raise the standard of your laboratory?

Check the product in our store

FAQ

1. Why can't an ordinary office chair be used in a laboratory?

Ordinary office chairs often have fabric upholstery that absorbs liquids, odors, and biological contaminants, making effective disinfection impossible. In addition, standard castors and plastics can generate electrostatic charges dangerous to research equipment.

2. What is an EPA zone and what chair is required there?

EPA (Electrostatic Protected Area) is an area protected against static electricity. An antistatic (ESD) chair is required there, which thanks to conductive materials (upholstery, castors, cylinder) dissipates charges to the ground, protecting sensitive electronics from damage.

3. What is the difference between polyurethane (PU) and artificial leather (eco-leather) in medical furniture?

Integral polyurethane (used, among others, in the SPC-MATTI-10B model) is much more durable. It is resistant to tears, acids, alkalis, and oils. Unlike eco-leather, PU does not crack after frequent wiping with strong alcohol-based agents.

4. Which castors should be chosen for a resin floor in a laboratory?

The best choice is castors with a polyurethane tread (soft). They ensure smooth movement, do not scratch delicate resin coatings, and are resistant to chemicals that may end up on the floor.

5. What is the BIFMA test and why is it important when choosing a chair?

BIFMA is a rigorous durability standard for office and industrial furniture. A chair with this certification has passed load and stability tests, which guarantees safety even during work in a 3-shift system (24/7).

6. How should you care for an ESD chair so that it does not lose its properties?

The key is to avoid waxes and furniture polishes, which can create an insulating layer on the surface. Only dedicated cleaning agents or water solutions with a mild detergent should be used, as they do not block the flow of charges.

7. What seat height is optimal for laboratory work?

It depends on the worktop height. Standard chairs (approx. 40-55 cm) fit desks, but for high laboratory tables (90 cm+) "stool" type chairs with an additional leg ring (footrest) are required to provide support for the feet and proper circulation.

Back to news