Our Product

Wall Bench Base on Steel Structure

Wall Bench

Wall steel

Specification
  • Finish for wall bench steel structure powder coating / Epoxy paint chemical resistant.
  • Full steel case work. All steel case work are constructed of heavy duty cold roll steel with 1,2 mm thickness. Coated by OKZONOBEL / NIPON paint / DULUX paint epoxy powder coating, resulting in high stability and strong chemical resistance the material of each panel baffle plate and support pillar is sourced from the same  cold roll steel to ensure. The side wall and back wall are made of an entire steel plate.

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Island Bench Steel Structure

Island Bench

Specification
  • Finish for island bench steel structure powder coating / Epoxy paint chemical resistant.
  • Full steel case work. All steel case work are constructed of heavy duty cold roll steel with 1,2 mm thickness. Coated by OKZONOBEL / NIPON paint / DULUX paint epoxy powder coating, resulting in high stability and strong chemical resistance the material of each panel baffle plate and support pillar is sourced from the same  cold roll steel to ensure. The side wall and back wall are made of an entire steel plate.

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Special Laboratory Worktop

A. Lab-grade Phenolic Resins Worktop Toplab

 

Lab-grade Phenolic Resins Worktop Toplab
Data Material
Thicness
  • 13 mm
  • 16 mm
  • 19 mm
  • 25 mm
Colour
  • Black
  • White
  • Gray
Heat-resistance
  • 135 Celcius degrees
Chemical Resistance
  • Corrosive-resistance
  • It’s resistant for many kinds of acid
  • Alkali
  • solvent and reagent etc.
Substance
  • Dipping phenolic resin into special-multi layer kraft paper
  • It’s hot-solid formed under high temperature and pressure.

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Lemari Asam – Fume Hood (Based on Wooden Structure)

wood

Work top
  • Epoxy resin Durcon or equal
  • Phenolic resin Tresspa or equal
  • Stainless steel 316/304
External Lining
  • Solid wood finish epoxy paint
  • High presure laminated
Internal Lining
  • Phenolic resin slab
  • Stainless steel 316/304
  • R.I.F (Re-inforced-fibre)
  • Polyvinil chloride (PVC)
  • Polypropylene panel (PP)
Base Cabinet

 

  • Solid wood finish epoxy paint
  • High pressure laminated
  • Galvanized steel finish epoxy powder coating.

 

Our Standards Compliance
Our ( Lemari Asam ) Fume hoods are designed and manufactured in accordance to SEFA-a 2006, BS 7258, EN 14 175 and ANSI/ASHRAE 110 standards in an ISO 9001-2008 facility. every Fume Hood has been tested in accordance with the provisions and standarts that meet international standarts of safety, performance, lighting, efficiency, noise, ergonomics, and aesthetics.
The ANSI/ASHRAE 110 standard is one of the latest and most comprehensive methods for testing operator safety level of fume hoods ( lemari asam ) by determining qualitatively and repeatedly how well fume hood ( lemari asam ) contain the gases and vapors released in the work zone.

 

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Lemari Asam – Fume Hood (Base on Galvanized Steel Structure)

Fume Hood Galvanized

Work top
  • Epoxy resin Durcon or equal
  • Phenolic resin Tresspa or equal
  • Stainless steel 316/304
External Lining
  • Galvanized steel finish epoxy powder coating
Internal Lining
  • Phenolic resin slab
  • Stainless steel 316/304
  • R.I.F (Re-inforced-fibre)
  • Polyvinil chloride (PVC)
  • Polypropylene panel (PP)
Base Cabinet
  • Galvanized steel finish epoxy powder coating.

Our Standards Compliance
Our Fume hoods ( lemari asam ) are designed and manufactured in accordance to SEFA-a 2006, BS 7258, EN 14 175 and ANSI/ASHRAE 110 standards in an ISO 9001-2008 facility. every Fume Hood ( lemari asam ) has been tested in accordance with the provisions and standarts that meet international standarts of safety, performance, lighting, efficiency, noise, ergonomics, and aesthetics.
The ANSI/ASHRAE 110 standard is one of the latest and most comprehensive methods for testing operator safety level of fume hoods ( lemari asam ) by determining qualitatively and repeatedly how well fume hood ( lemari asam ) contain the gases and vapors released in the work zone.

 

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Fume Hood ( Lemari Asam ) Phenolic Resin

resin

Work top
  • Epoxy resin Durcon or equal
  • Phenolic resin Tresspa or equal
External Lining & Internal Lining
  • Phenolic resin slab 16 mm
  • Phenolic resin slab 12 mm
  • Phenolic resin baffle
Base Cabinet
  • Solid wood finish epoxy paint
  • High pressure laminated
  • Galvanized steel finish epoxy powder coating.

Our Standards Compliance
Our Fume hoods ( lemari asam ) are designed and manufactured in accordance to SEFA-a 2006, BS 7258, EN 14 175 and ANSI/ASHRAE 110 standards in an ISO 9001-2008 facility. every Fume Hood ( lemari asam ) has been tested in accordance with the provisions and standarts that meet international standarts of safety, performance, lighting, efficiency, noise, ergonomics, and aesthetics.
The ANSI/ASHRAE 110 standard is one of the latest and most comprehensive methods for testing operator safety level of fume hoods by determining qualitatively and repeatedly how well fume hood ( lemari asam ) contain the gases and vapors released in the work zone.

 

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Standards of Fume Hood – Lemari Asam

Our Fume Hood ( lemari asam ) Specification

Our Fume hoods ( lemari asam ) are designed and manufactured in accordance to SEFA-a 2006, BS 7258, EN 14 175 and ANSI/ASHRAE 110 standards in an ISO 9001-2008 facility. every Fume Hood ( lemari asam ) has been tested in accordance with the provisions and standarts that meet international standarts of safety, performance, lighting, efficiency, noise, ergonomics, and aesthetics.

The ANSI/ASHRAE 110 standard is one of the latest and most comprehensive methods for testing operator safety level of fume hoods ( lemari asam ) by determining qualitatively and repeatedly how well fume hood ( lemari asam ) contain the gases and vapors released in the work zone.

Proto FHRS

Description
  1. Fluorecent lamp 2×20 W
  2. Vertical sash system laminated glass 6 mm
  3. Stainless steel handle
  4. Wall baffle phenolic resin panel 6 mm
  5. Back cover panel
  6. Water nozzle
  7. Push button blower
  8. On/Off lamp ex.legrand/equal
  9. Front control valve
  10. Electric socket double ex.legrand/equal
  11. Base cabinet (chemical storage)
  12. Worktop epoxy resin/Phenolic resin
  13. Tubing
  14. Nozzle gas/air/vacum
  15. Ducting pipe 8-10 ” pvc/pp
  16. (optional) Flow monitor
National Research Council (NRC)

Recommends face velocities between 80 and 100 Fpm (0,4 – 0,5 m/s)

National Fire and Protection Agency (NFPA)

Section 6 – 4,5 states face velocities of 0,4 m/s to 0,6 m/s

American Society of Heating Refrigerating and Air Conditioning Engineers (ASHRAE) 11Q1995
  • Face velocities of 0,4 m/s – 0,6 m/s
  • Average lumen > 300 lm
  • Average Noise Level < 82 db

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