Standards Standards Standards Standards
Australian/New Zealand Occupational Protective Glove Standards Australian/New Zealand Occupational Protective Glove Standards Australian/New Zealand Occupational Protective Glove Standards Australian/New Zealand Occupational Protective Glove Standards Australian/New Zealand Occupational Protective Glove Standards Australian/New Zealand Occupational Protective Glove Standards
Features and Benefits • 0.8mm premium breathable synthetic leather palm • Four way stretch spandex for full movement • Budget priced alternative to leather gloves • Machine washable • Black Neoprene knuckle bar Frontier P8175 Contego Rigger P8175
An Overview The Australian/New Zealand Glove Standards have been developed based on the European Standards to ensure improved hand and wrist safety in the workplace. An Overview The Australian/New Zealand Glove Standards have been developed based on the European Standards to ensure improved hand and wrist safety in the workplace. AS/NZS 2161 consists of: • AS/NZS 2161.2:1998, Occupational protective gloves Part 2: General Requirement (EN 420:1994) • AS/NZS 2161.3:1998, Occupational protective gloves Part 3: Protection against mechanical risks (EN 388:1994). • AS/NZS 2161.5:1998, Occupational protective gloves Part 5: Protection against cold (EN 511:1994) • AS/NZS 2161.10.3:2005, Occupational protective gloves Part 10: Determination of resistance to permeation by chemicals (EN 374-3:2003) Pictograms Pictograms representing hazards or applications to the European & Aust/NZ Standards: • AS/NZS 2161.10.3:2005, Occupational protective gloves Part 10: Determination of resistance to permeation by chemicals (EN 374-3:2003) Pictograms Pictograms representing hazards or applications to the European & Aust/NZ Standards: Pictograms Pictograms representing hazards or applications to the European & Aust/NZ Standards: AS/NZS 2161 consists of: • AS/NZS 2161.2:1998, Occupational protective gloves Part 2: General Requirement (EN 420:1994) • AS/NZS 2161.3:1998, Occupational protective gloves Part 3: Protection against mechanical risks (EN 388:1994). • AS/NZS 2161.5:1998, Occupational protective gloves Part 5: Protection against cold (EN 511:1994) AS/NZS 2161 consists of: • AS/NZS 2161.2:1998, Occupational protective gloves Part 2: General Requirement (EN 420:1994) AS/NZS 2161.3:1998, Occupational protective gloves Part 3: Protection against mechanical risks (EN 388:1994). AS/NZS 2161.5:1998, Occupational protective gloves Part 5: Protection against cold (EN 511:1994) MECHANICAL HAZARDS MECHANICAL HAZARDS Pictograms Pictograms representing hazards or applications to the European & Aust/NZ Standards: MECHANICAL HAZARDS IMPACT CUT STATIC ELECTRICITY CHEMICAL HAZARDS Pictograms Pictograms representing hazards or applications to the European & Aust/NZ Standards: AS/NZS 2161 consists of: • AS/NZS 2161.2:1998, Occupational protective gloves Part 2: General Requirement (EN 420:1994) AS/NZS 2161.3:1998, Occupational protective gloves Part 3: Protection against mechanical risks (EN 388:1994). AS/NZS 2161.5:1998, Occupational protective gloves Part 5: Protection against cold (EN 511:1994) AS/NZS 2161.10.3:2005, Occupational protective gloves Part 10: Determination of resistance to permeation by chemicals (EN 374-3:2003) AS/NZS 2161 consists of: • AS/NZS 2161.2:1998, Occupational protective gloves Part 2: General Requirement (EN 420:1994) • AS/NZS 2161.3:1998, Occupational protective gloves Part 3: Protection against mechanical risks (EN 388:1994). • AS/NZS 2161.5:1998, Occupational protective gloves Part 5: Protection against cold (EN 511:1994) • AS/NZS 2161.10.3:2005, Occupational protective gloves Part 10: Determination of resistance to permeation by chemicals (EN 374-3:2003) AS/NZS 2161.10.3:2005, Occupational protective gloves Part 10: Determination of resistance to permeation by chemicals (EN 374-3:2003) An Overview The Australian/New Zealand Glove Standards have been developed based on the European Standards to ensure improved hand and wrist safety in the workplace. An Overview The Australian/New Zealand Glove Standards have been developed based on the European Standards to ensure improved hand and wrist safety in the workplace. An Overview The Australian/New Zealand Glove Standards have been developed based on the European Standards to ensure improved hand and wrist safety in the workplace.
Gloves are tested for each of these properties and results reported as performance ratings. The higher the rating, the better the glove is with respect to this property. Further optional testing of impact cut resistance and anti-static performance may also be performed. Gloves are tested for each of these properties and results reported as performance ratings. The higher the rating, the better the glove is with respect to this property. Further optional testing of impact cut resistance and anti-static performance may also be performed. Test Abrasion Resistance (# of cycles) Blade Cut Resistance (Index) Gloves are tested for each of these properties and results reported as performance ratings. The higher the rating, the better the glove is with respect to this property. Further optional testing of impact cut resistance and anti-static performance may also be performed. Gloves are tested for each of these properties and results reported as performance ratings. The higher the rating, the better the glove is with respect to this property. Further optional testing of impact cut resistance and anti-static performance may also be performed. Level 1 Level 2 Level 3 Level 4 Level 5 Level 1 Level 2 Level 3 Level 4 Level 5 500 2000 8000 – 2,5 Level 1 Level 2 Level 3 Level 4 Level 5 5,0 Level 1 Level 2 Level 3 Level 4 Level 5 Gloves are tested for each of these properties and results reported as performance ratings. The higher the rating, the better the glove is with respect to this property. Further optional testing of impact cut resistance and anti-static performance may also be performed.
100 1,2 20 1,2 10 100 1,2 20 20 20 100 1,2 100 10 1,2 100 10 10
Test Abrasion Resistance (# of cycles) Blade Cut Resistance (Index) Puncture Resistance (Newton) Test Abrasion Resistance (# of cycles) Tear Resistance (Newton) Blade Cut Resistance (Index) Puncture Resistance (Newton) Tear Resistance (Newton) Blade Cut Resistance (Index) Tear Resistance (Newton) Blade Cut Resistance (Index) Test Abrasion Resistance (# of cycles) Test Abrasion Resistance (# of cycles) Puncture Resistance (Newton) Tear Resistance (Newton)
– – 10,0 20,0 10,0 20,0 10,0 20,0 8000 – 150 10,0 20,0 –
500 2000 500 2000 25 2,5 500 2000
8000 75 8000 75 8000 75 75 150 150
5,0 50 5,0 50 50 5,0 100 5,0 100 50 100 100
Level 1 Level 2 Level 3 Level 4 Level 5
2,5 60 25 2,5 25 25 60 2,5 60 60
– – –
500 2000
–
Recommended Uses Automotive, Shipping, Power tools, Construction, Carpentry.
– – –
AS/NZS 2161.5:1998 (EN 511:1994) Protection Against Cold This standard defines the requirements and test methods for gloves which protect AS/NZS 2161.5:1998 (EN 511:1994) Protection Against Cold This standard defines the requirements and test methods for gloves which protect This standard defines the requirements and test methods for gloves which protect Puncture Resistance (Newton) AS/NZS 2161.5:1998 (EN 511:1994) Protection Against Cold 20 60 100 150 – AS/NZS 2161.5:1998 (EN 511:1994) Protection Against Cold Puncture Resistance (Newton) AS/NZS 2161.5:1998 (EN 511:1994) Protection Against Cold 150 10,0 20,0 Tear Resistance (Newton) 10 25 50 75 –
This standard defines the requirements and test methods for gloves which protect against convective or conductive cold down to -50C. This cold can be linked to climatic conditions or work conditions. The tests that define the standard are: Flexibility Behaviour: Will the glove crack when used in the cold? Water impermeability: Will water seep through the gloves when used? Cold resistance: How well do the gloves resist the cold? Convective Cold: How well do the gloves insulate the wearer from the cold? Contact Cold: How well does the palm of the gloves insulate the wearer from the cold? The tests that define the standard are: Flexibility Behaviour: Will the glove crack when used in the cold? Water impermeability: Will water seep through the gloves when used? Cold resistance: How well do the gloves resist the cold? Convective Cold: How well do the gloves insulate the wearer from the cold? Contact Cold: How well does the palm of the gloves insulate the wearer from the cold? against convective or conductive cold down to -50C. This cold can be linked to climatic conditions or work conditions. against convective or conductive cold down to -50C. This cold can be linked to climatic conditions or work conditions. against convective or conductive cold down to -50C. This cold can be linked to climatic conditions or work conditions. This standard defines the requirements and test methods for gloves which protect The tests that define the standard are: Flexibility Behaviour: Will the glove crack when used in the cold? Water impermeability: Will water seep through the gloves when used? Cold resistance: How well do the gloves resist the cold? Convective Cold: How well do the gloves insulate the wearer from the cold? Contact Cold: How well does the palm of the gloves insulate the wearer from the cold? The tests that define the standard are: Flexibility Behaviour: Will the glove crack when used in the cold? Water impermeability: Will water seep through the gloves when used? Cold resistance: How well do the gloves resist the cold? Convective Cold: How well do the gloves insulate the wearer from the cold? Contact Cold: How well does the palm of the gloves insulate the wearer from the cold? The tests that define the standard are: Flexibility Behaviour: Will the glove crack when used in the cold? Water impermeability: Will water seep through the gloves when used? Cold resistance: How well do the gloves resist the cold? Convective Cold: How well do the gloves insulate the wearer from the cold? Contact Cold: How well does the palm of the gloves insulate the wearer from the cold? against convective or conductive cold down to -50C. This cold can be linked to climatic conditions or work conditions.
Carton Qty
Pack Qty MOQ
Code
Size
CHEMICAL HAZARDS CHEMICAL HAZARDS CHEMICAL HAZARDS CHEMICAL HAZARDS IONIZING RADIATION IONIZING RADIATION IONIZING RADIATION IONIZING RADIATION IONIZING RADIATION
IMPACT CUT IMPACT CUT IMPACT CUT IMPACT CUT
STATIC ELECTRICITY STATIC ELECTRICITY STATIC ELECTRICITY STATIC ELECTRICITY HEAT AND FIRE HEAT AND FIRE HEAT AND FIRE HEAT AND FIRE HEAT AND FIRE
P8175.S
Small
12
72 72 72 72 72
P8175.M Medium 12
MECHANICAL HAZARDS MECHANICAL HAZARDS
P8175.L P8175.XL P8175.2XL
Large
12 12
X-Large
COLD HAZARDS COLD HAZARDS COLD HAZARDS COLD HAZARDS COLD HAZARDS
MICRO-ORGANISM HAZARDS MICRO-ORGANISM HAZARDS MICRO-ORGANISM HAZARDS MICRO-ORGANISM HAZARDS MICRO-ORGANISM HAZARDS
2X-Large 12
Cold Hazards Pictogram The rating underneath the pictogram refer to the glove's performance with respect to: Convective Cold (2), Contact Cold (3), and Water Impermeability (1). Cold Hazards Pictogram The rating underneath the pictogram refer to the glove's performance with respect to: Convective Cold (2), Contact Cold (3), and Water Impermeability (1). Cold Hazards Pictogram The rating underneath the pictogram refer to the glove's performance with respect to: Convective Cold (2), Contact Cold (3), and Water Impermeability (1). respect to: Convective Cold (2), Contact Cold (3), and Water Impermeability (1). Cold Hazards Pictogram The rating underneath the pictogram refer to the glove's performance with respect to: Convective Cold (2), Contact Cold (3), and Water Impermeability (1). Cold Hazards Pictogram The rating underneath the pictogram refer to the glove's performance with
2142
AS/NZS 2161.2:1998 (EN 420:1994) General Requirements This standard defines the general requirements for ergonomy, glove construction, high visibility, innocuousness, cleaning, comfort and efficiency, marking and information applicable to all protective gloves. Put simply the Standard requires that: General Requirements: • Glove design and construction is suitable for its intended use. • Any seams present in construction (cotton, leather etc) do not result in a significant decrease in product performance. The gloves will not harm the health or hygiene of the user. Sizing: Glove sizing conforms to set specifications with respect to hand circumference. This standard defines the general requirements for ergonomy, glove construction, high visibility, innocuousness, cleaning, comfort and efficiency, marking and information applicable to all protective gloves. Put simply the Standard requires that: General Requirements: • Glove design and construction is suitable for its intended use. • Any seams present in construction (cotton, leather etc) do not result in a significant decrease in product performance. The gloves will not harm the health or hygiene of the user. Sizing: • Glove sizing conforms to set specifications with respect to hand circumference. This standard defines the general requirements for ergonomy, glove construction, high visibility, innocuousness, cleaning, comfort and efficiency, marking and information applicable to all protective gloves. Put simply the Standard requires that: General Requirements: Glove design and construction is suitable for its intended use. • Any seams present in construction (cotton, leather etc) do not result in a significant decrease in product performance. The gloves will not harm the health or hygiene of the user. Sizing: Glove sizing conforms to set specifications with respect to hand circumference. This standard defines the general requirements for ergonomy, glove construction, high visibility, innocuousness, cleaning, comfort and efficiency, marking and information applicable to all protective gloves. Put simply the Standard requires that: General Requirements: • Glove design and construction is suitable for its intended use. • Any seams present in construction (cotton, leather etc) do not result in a significant decrease in product performance. • The gloves will not harm the health or hygiene of the user. Sizing: • Glove sizing conforms to set specifications with respect to hand circumference. • Minimum glove lengths are specified for each size. Product and Packaging Labelling (Marking): • Gloves must be generally marked with trade mark or other identification of manufacturer/representative, product code name or code and size. • Packaging carries additional information such as where information about the product can be obtained and pictograms denoting performance levels against Standards as appropriate. • Instructions for use. • Packaging carries additional information such as where information about the product can be obtained and pictograms denoting performance levels against Standards as appropriate. Instructions for use. Packaging carries additional information such as where information about the product can be obtained and pictograms denoting performance levels against Standards as appropriate. • Instructions for use. AS/NZS 2161.3:1998 (EN 388:1994) Protection Against Mechanical Risk • Packaging carries additional information such as where information about the product can be obtained and pictograms denoting performance levels against Standards as appropriate. • Instructions for use. • Minimum glove lengths are specified for each size. Product and Packaging Labelling (Marking): Gloves must be generally marked with trade mark or other identification of manufacturer/representative, product code name or code and size. Packaging carries additional information such as where information about the product can be obtained and pictograms denoting performance levels against Standards as appropriate. • Instructions for use. • Minimum glove lengths are specified for each size. Product and Packaging Labelling (Marking): • Gloves must be generally marked with trade mark or other identification of manufacturer/representative, product code name or code and size. This standard defines the general requirements for ergonomy, glove construction, high visibility, innocuousness, cleaning, comfort and efficiency, marking and information applicable to all protective gloves. Put simply the Standard requires that: General Requirements: • Glove design and construction is suitable for its intended use. • Any seams present in construction (cotton, leather etc) do not result in a significant decrease in product performance. • The gloves will not harm the health or hygiene of the user. Sizing: • Glove sizing conforms to set specifications with respect to hand circumference. Minimum glove lengths are specified for each size. Product and Packaging Labelling (Marking): Gloves must be generally marked with trade mark or other identification of manufacturer/representative, product code name or code and size. • Minimum glove lengths are specified for each size. Product and Packaging Labelling (Marking): Gloves must be generally marked with trade mark or other identification of manufacturer/representative, product code name or code and size. AS/NZS 2161.3:1998 (EN 388:1994) Protection Against Mechanical Risk AS/NZS 2161.3:1998 (EN 388:1994) Protection Against Mechanical Risk AS/NZS 2161.2:1998 (EN 420:1994) General Requirements AS/NZS 2161.2:1998 (EN 420:1994) General Requirements AS/NZS 2161.2:1998 (EN 420:1994) General Requirements AS/NZS 2161.3:1998 (EN 388:1994) Protection Against Mechanical Risk AS/NZS 2161.2:1998 (EN 420:1994) General Requirements
AS/NZS 2161.10.3:2005 (EN 374-3:2003) Determination of resistance to permeation by chemicals Resistance to permeation is assessed by measuring the time for a chemical to breakthrough the glove material. Samples cut from the palms of the gloves, are placed in a permeation cell which enables the chemical to be placed in contact with the outer surface of the gloves. Air or water is passed through the cell to collect any chemical that has broken through to the inside surface of the glove sample. Resistance to permeation is assessed by measuring the time for a chemical to breakthrough the glove material. Samples cut from the palms of the gloves, are placed in a permeation cell which enables the chemical to be placed in contact with the outer surface of the gloves. Air or water is passed through the cell to collect any chemical that has broken through to the inside surface of the glove sample. Resistance to permeation is assessed by measuring the time for a chemical to breakthrough the glove material. Samples cut from the palms of the gloves, are placed in a permeation cell which enables the chemical to be placed in contact with the outer surface of the gloves. Air or water is passed through the cell to collect any chemical that has broken through to the inside surface of the glove sample. The "Chemical Resistant" glove pictogram must be accompanied by a 3 digit code. This code refers to the code letters of three chemicals (from a list of 12 standard defined chemicals), for which a breakthrough time of a least 30 minutes has been obtained. The "Chemical Resistant" glove pictogram must be accompanied by a 3 digit code. This code refers to the code letters of three chemicals (from a list of 12 standard defined chemicals), for which a breakthrough time of a least 30 minutes has been obtained. Resistance to permeation is assessed by measuring the time for a chemical to breakthrough the glove material. Samples cut from the palms of the gloves, are placed in a permeation cell which enables the chemical to be placed in contact with the outer surface of the gloves. Air or water is passed through the cell to collect any chemical that has broken through to the inside surface of the glove sample. Code Letter Chemical The "Chemical Resistant" glove pictogram must be accompanied by a 3 digit code. This code refers to the code letters of three chemicals (from a list of 12 standard defined chemicals), for which a breakthrough time of a least 30 minutes has been obtained. AS/NZS 2161.10.3:2005 (EN 374-3:2003) Determination of resistance to permeation by chemicals Resistance to permeation is assessed by measuring the time for a chemical to breakthrough the glove material. Samples cut from the palms of the gloves, are placed in a permeation cell which enables the chemical to be placed in contact with the outer surface of the gloves. Air or water is passed through the cell to collect any chemical that has broken through to the inside surface of the glove sample. AS/NZS 2161.10.3:2005 (EN 374-3:2003) Determination of resistance to permeation by chemicals AS/NZS 2161.10.3:2005 (EN 374-3:2003) Determination of resistance to permeation by chemicals AS/NZS 2161.10.3:2005 (EN 374-3:2003) Determination of resistance to permeation by chemicals Code Letter Chemical The "Chemical Resistant" glove pictogram must be accompanied by a 3 digit code. This code refers to the code letters of three chemicals (from a list of 12 standard defined chemicals), for which a breakthrough time of a least 30 minutes has been obtained. Class The "Chemical Resistant" glove pictogram must be accompanied by a 3 digit code. This code refers to the code letters of three chemicals (from a list of 12 standard defined chemicals), for which a breakthrough time of a least 30 minutes has been obtained. A Methanol Code Letter Chemical Code Letter Chemical Class Class Class
Frontier P8174 Contego P8174
Features and Benefits • 0.8 mm premium breathable synthetic leather palm • Cut level 2 protection • Neoprene padded palm for vibration reduction and comfort • Perforated forchettes for increased coolness and air flow • Four way stretch spandex for full movement • Velcro closure for increased comfort and improved fit • ID tag for personalised identification
Primary Alcohol Nitrile Compound Chlorinated paraffin Nitrile Compound Ketone Ketone Nitrile Compound Chlorinated paraffin Aromatic hydrocarbon Chlorinated paraffin Primary Alcohol Ketone Primary Alcohol Primary Alcohol Ketone Ketone Sulphur containing organic compound Nitrile Compound Sulphur containing organic compound Aromatic hydrocarbon Heterocyclic and ether compound Sulphur containing organic compound Heterocyclic and ether compound Amine Amine Amine Heterocyclic and ether compound Saturated hydrocarbon Heterocyclic and ether compound Aromatic hydrocarbon Heterocyclic and ether compound Saturated hydrocarbon Ester Ester Sulphur containing organic compound Primary Alcohol Chlorinated paraffin Nitrile Compound Amine Sulphur containing organic compound Chlorinated paraffin Aromatic hydrocarbon Aromatic hydrocarbon Ester Amine
A C D C B B A C D F E E F H F H J K J J L K J K K H L J L K L I H H F B A E A B B D C C D F E D I I I
Methanol Acetone Acetonitrile Acetone Acetonitrile Acetone Dichloromethane Carbone disulphide Dichloromethane Dichloromethane Carbone disulphide Acetonitrile Carbone disulphide Acetonitrile Methanol Acetone Toluene Acetone Acetonitrile Dichloromethane Toluene Dichloromethane Toluene Tetrahydrofuran Carbone disulphide Tetrahydrofuran Tetrahydrofuran Ethyl acetate Ethyl acetate n-Heptane Toluene n-Heptane Sulphuric acid 96% n-Heptane Sulphuric acid 96% n-Heptane Sulphuric acid 96% Tetrahydrofuran n-Heptane Ethyl acetate Tetrahydrofuran Methanol Methanol Carbone disulphide Sulphuric acid 96%
Code Letter Chemical
Class
This standard is applicable to all kinds of protective gloves with regards to physical and mechanical aggressions caused by abrasion, blade cut, tear and puncture. This standard may also be used to determine the impact cut resistance and anti-static nature of the glove product. The four basic tests that define this standard are: Abrasion resistance: How well can the material of the glove resist exposure to repeated abrasion? Blade cut resistance: How well can the material of the glove resist cutting objects? Tear resistance: What force is needed to enlarge, by tearing a precut hole in the material of the glove? Puncture resistance: What force is needed to puncture the palm of the glove with a calibrated spike? The four basic tests that define this standard are: Abrasion resistance: How well can the material of the glove resist exposure to repeated abrasion? Blade cut resistance: How well can the material of the glove resist cutting objects? Tear resistance: What force is needed to enlarge, by tearing a precut hole in the material of the glove? Puncture resistance: What force is needed to puncture the palm of the glove with a calibrated spike? Tear resistance: What force is needed to enlarge, by tearing a precut hole in the material of the glove? Puncture resistance: What force is needed to puncture the palm of the glove with a calibrated spike? The four basic tests that define this standard are: Abrasion resistance: How well can the material of the glove resist exposure to repeated abrasion? Blade cut resistance: How well can the material of the glove resist cutting objects? This standard is applicable to all kinds of protective gloves with regards to physical and mechanical aggressions caused by abrasion, blade cut, tear and puncture. This standard may also be used to determine the impact cut resistance and anti-static nature of the glove product. This standard is applicable to all kinds of protective gloves with regards to physical and mechanical aggressions caused by abrasion, blade cut, tear and puncture. This standard may also be used to determine the impact cut resistance and anti-static nature of the glove product. This standard is applicable to all kinds of protective gloves with regards to physical and mechanical aggressions caused by abrasion, blade cut, tear and puncture. This standard may also be used to determine the impact cut resistance and anti-static nature of the glove product. This standard is applicable to all kinds of protective gloves with regards to physical and mechanical aggressions caused by abrasion, blade cut, tear and puncture. This standard may also be used to determine the impact cut resistance and anti-static nature of the glove product. The four basic tests that define this standard are: Abrasion resistance: How well can the material of the glove resist exposure to repeated abrasion? Blade cut resistance: How well can the material of the glove resist cutting objects? The four basic tests that define this standard are: Abrasion resistance: How well can the material of the glove resist exposure to repeated abrasion? Blade cut resistance: How well can the material of the glove resist cutting objects? Tear resistance: What force is needed to enlarge, by tearing a precut hole in the material of the glove? Puncture resistance: What force is needed to puncture the palm of the glove with a calibrated spike? Tear resistance: What force is needed to enlarge, by tearing a precut hole in the material of the glove? Puncture resistance: What force is needed to puncture the palm of the glove with a calibrated spike?
G Diethylamine E G Diethylamine Toluene G Diethylamine G Diethylamine
AS/NZS 2161.3:1998 (EN 388:1994) Protection Against Mechanical Risk
Recommended Uses Automotive, Shipping, Power tools, Construction, Carpentry, Mining, Gardening and landscaping.
I G Diethylamine
Sodium Hydroxide 40% Inorganic base Ethyl acetate Ester Sodium Hydroxide 40% Inorganic base Sodium Hydroxide 40% Inorganic base Ethyl acetate Ester Sodium Hydroxide 40% Inorganic base
Saturated hydrocarbon Inorganic mineral acid Saturated hydrocarbon Inorganic mineral acid Saturated hydrocarbon Inorganic mineral acid Inorganic mineral acid
Carton Qty
Pack Qty MOQ
Code
Size
Performance Level Sodium Hydroxide 40% Inorganic base
Mechanical Hazards Pictogram The rating underneath the pictogram refer to the gloves protection with respect to: Abrasion (4), Cut (2), Tear (2), Puncture Resistance (1). Mechanical Hazards Pictogram The rating underneath the pictogram refer to the gloves protection with respect to: Abrasion (4), Cut (2), Tear (2), Puncture Resistance (1). Mechanical Hazards Pictogram The rating underneath the pictogram refer to the gloves protection with respect to: Abrasion (4), Cut (2), Tear (2), Puncture Resistance (1). Mechanical Hazards Pictogram The rating underneath the pictogram refer to the gloves protection with respect to: Abrasion (4), Cut (2), Tear (2), Puncture Resistance (1). Mechanical Hazards Pictogram The rating underneath the pictogram refer to the gloves protection with respect to: Abrasion (4), Cut (2), Tear (2), Puncture Resistance (1).
P8174.S
Small
12
72 72 72 72 72
L
Sulphuric acid 96%
Inorganic mineral acid
1
2
3
4
5
6
Performance Level Performance Level Performance Level
P8174.M Medium 12
>10
>30
>60
>120
>240
>480
1 1 1
2 2 2
3 3 3
4 4 4
5 5 5
6 6 6
P8174.L P8174.XL P8174.2XL
Large
12 12
Breakthrough time (mins) Performance Level
>10 >10 >10
>30 >30 >30
>60 >60 >60
>120 >120 >120
>240 >240 >240
>480 >480 >480
X-Large
1
2
3
4
5
6
Breakthrough time (mins) Breakthrough time (mins) Breakthrough time (mins)
2X-Large 12
>10
>30
>60
>120
>240
>480
Breakthrough time (mins)
46
46 46 46
46
3231
6
Frontier volume 1. personal protective equipment
Frontier volume 1. personal protective equipment
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