Face shield

A face shield is a device used to protect wearer's entire face (or part of it) from hazards such as flying objects and road debris, chemical splashes (in industry), or potentially infectious materials (in medical and laboratory environments).

A United States Navy Electrician's Mate wearing a face shield while checking for bad fuses on a lighting panel aboard the USS Carl Vinson (CVN 70)

Industry

The face shield is a device intended to protect the wearer's partial or entire face and the eyes from different hazards, depending on faceshield type. Faceshields should be used with spectacles and/or goggles.[1]

Standard

ANSI (American Standard)
  • Mark Z87: Basic impact: Faceshields shall be capable of resisting impact from a 25.4 mm (1 in) diameter steel ball dropped from a height of 127 cm (50 in).
  • Mark Z87+: High impact: Faceshields shall be capable of resisting impact from a 6.35 mm (0.25 in) diameter steel ball traveling at a velocity of 91.4 m/s (300 ft/s).
    • ref. ANSI Z87.1
EN 166 (European Standard)

These shields are for protection against high-speed particles, and must withstand the impact of a 6 mm nominal diameter steel ball, striking the oculars and the lateral protection at the speed stated.

  • Mark A: 190 m/s.
  • Mark B: 120 m/s.
  • Mark F: 45 m/s.
    • ref. EN166
CSA (Canadian Standard)

Z94.3-15 Eye and Face Protectors Class 6 relates to face shields, and is divided into 3 sub-classes

  • 6A – Impact, piercing, splash, head, and glare protection.
  • 6B – Radiation protection. Also for low heat, splash, glare, and light non-piercing impact protection.
  • 6C – High-heat applications and light non-piercing impact protection only.
    • ref. CSA Z94.3-15

See also welding helmet.

Material

  • Polycarbonate (PC)

Provide excellent impact resistance, optical quality, heat resistance and normal chemical resistance.

  • Cellulose acetate (CA)

Provide normal impact resistance, optical quality, heat resistance and good chemical resistance.

Manufacturing

Two methods are used to manufacture faceshields: extrusion and injection molding. Faceshields cut from extrusion sheets provide better impact resistance than injection molded faceshields because extrusion sheets are made of high molecular weight plastic pellets while injection molding must use lower molecular weight plastic pellets, which provide better melt flowing property needed by injection molding. For example, even 0.8 mm thickness faceshields made of extrusion polycarbonate sheets can withstand the impact of a 6 mm nominal diameter steel ball traveling at the speed 120 m/s (European standard, protection against high-speed particles – medium energy impact), while injection molding faceshields must have at least 1.5 mm thickness to withstand the same impact. However, injection molding can provide more complicated shape than extrusion.

Medical

A video describing research on the efficacy of face shields to protect against aerosol emitted from coughing.

In medical applications, "face shield" refers to a variety of devices used to protect a medical professional during a procedure that might expose them to blood or other potentially infectious fluids. An example is the use of a CPR mask while performing rescue breathing or CPR. Another example is the use of personal protective equipment to guard the face against exposure to potentially infectious materials.

Police and Military

Russian paratrooper with a 6B47 helmet and ballistic face shield during an exercise in 2015.

In military or law enforcement environments, a face shield may be designed for ballistic or non-ballistic protection. The non-ballistic shield will provide no protection from projectiles shot from firearms,[2] but is usually designed to withstand low velocity impacts, like caused by punches or thrown objects.[3]

A ballistic face shield is designed to stop or deflect blast and fragments from operators wearing Bomb suits[4] To protect the wearers eyes and face from ballistic threats in combat is envisioned in the PEO Soldier program for the United States DoD.[5]

Construction

Atlantic Ocean (Jan. 27, 2006) - Chief Damage Controlman, John Brooks, removes the face shield from a Sailor’s MCU-2/P gas mask after washing it with decontamination solution during a General Quarters Drill aboard the Nimitz class aircraft carrier USS Dwight D. Eisenhower (CVN 69). Eisenhower is underway conducting carrier qualifications.

On many construction sites many workers use face shields to protect them from debris or sparks. Many tools for cutting and working with metal recommend the use of a face shield. Examples include welding equipment or metal chop saws.

See also

References

  1. ANSI Z87.1-2003, page 11
  2. A. Hunsicker: "Behind the Shield: Anti-Riot Operations Guide" Universal Publishers, 2011, ISBN 978-1612330358, page 166
  3. article: "Die Helm-Maskenkombination HMK" on polizeipraxis.de (german)
  4. Ashok Bhatnagar: "Lightweight Ballistic Composites: Military and Law-Enforcement Applications", Woodhead Publishing, 2018, ISBN 978-0081004067, page 133, 222
  5. Ashok Bhatnagar: "Lightweight Ballistic Composites: Military and Law-Enforcement Applications", Woodhead Publishing, 2018, ISBN 978-0081004067, page 396,397

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