56-AS319
56-635
AKL
A: Methanol
K: Sodium Hydroxide 40%
L: Sulfuric Acid 96%
To attain the EN 374 pictogram shield gloves must pass at least a Level 2 in three chemicals. The chemicals listed above are the chemicals that passed for this glove.
56-633
AKL
A: Methanol
K: Sodium Hydroxide 40%
L: Sulfuric Acid 96%
To attain the EN 374 pictogram shield gloves must pass at least a Level 2 in three chemicals. The chemicals listed above are the chemicals that passed for this glove.
50-AS25GC
56-425
63-331PF
56-426
67-246
JKTP
J: Heptane
K: Sodium Hydroxide 40%
T: Formaldehyde 37%
P: Hydrogen Peroxide 30%
To attain the EN 374 pictogram shield gloves must pass at least a Level 2 in three chemicals. The chemicals listed above are the chemicals that passed for this glove.
ESD is an acronym for electrostatic discharge. This discharge is the rapid transfer of static between two different objects. Although ESD doesn’t typically cause harm to the human body - you might only experience it as a small, surprising shock - it can cause extensive damage to electrical equipment and sensitive instruments. This damage may either be permanent, causing the device to malfunction (known as a catastrophic failure), or it may occur on a smaller scale that would be difficult to detect before the device is sent out for service (known as latent defect).
Test Method: ASTM D6978-05
In accordance with ASTM D6978-05, Personal Protective Equipment can be tested to ensure an effective barrier against Fentanyl. The ASTM D6978-05 Standard Practice for Assessment of Medical Gloves to Permeation by Chemotherapy Drug tests a breakthrough time of typically 240 minutes to determine if the PPE provides an effective barrier.
A common misconception is that touchscreens work based on heat from fingers. It's not heat that generates touchscreen functionality, instead, most screens work either on finger pressure applied or electrical field disruption. Basically, this means there are two main types of touchscreen technologies, Resistive and Capacitive.
Click here for more information about Resistive and Capacitive Touchscreens
67-308
JKTP
J: Heptane
K: Sodium Hydroxide 40%
T: Formaldehyde 37%
P: Hydrogen Peroxide 30%
To attain the EN 374 pictogram shield gloves must pass at least a Level 2 in three chemicals. The chemicals listed above are the chemicals that passed for this glove.
ESD is an acronym for electrostatic discharge. This discharge is the rapid transfer of static between two different objects. Although ESD doesn’t typically cause harm to the human body - you might only experience it as a small, surprising shock - it can cause extensive damage to electrical equipment and sensitive instruments. This damage may either be permanent, causing the device to malfunction (known as a catastrophic failure), or it may occur on a smaller scale that would be difficult to detect before the device is sent out for service (known as latent defect).
Test Method: ASTM D6978-05
In accordance with ASTM D6978-05, Personal Protective Equipment can be tested to ensure an effective barrier against Fentanyl. The ASTM D6978-05 Standard Practice for Assessment of Medical Gloves to Permeation by Chemotherapy Drug tests a breakthrough time of typically 240 minutes to determine if the PPE provides an effective barrier.
A common misconception is that touchscreens work based on heat from fingers. It's not heat that generates touchscreen functionality, instead, most screens work either on finger pressure applied or electrical field disruption. Basically, this means there are two main types of touchscreen technologies, Resistive and Capacitive.
Click here for more information about Resistive and Capacitive Touchscreens
67-308
A common misconception is that touchscreens work based on heat from fingers. It's not heat that generates touchscreen functionality, instead, most screens work either on finger pressure applied or electrical field disruption. Basically, this means there are two main types of touchscreen technologies, Resistive and Capacitive.
Click here for more information about Resistive and Capacitive Touchscreens
67-256
JKTP
J: Heptane
K: Sodium Hydroxide 40%
T: Formaldehyde 37%
P: Hydrogen Peroxide 30%
To attain the EN 374 pictogram shield gloves must pass at least a Level 2 in three chemicals. The chemicals listed above are the chemicals that passed for this glove.
ESD is an acronym for electrostatic discharge. This discharge is the rapid transfer of static between two different objects. Although ESD doesn’t typically cause harm to the human body - you might only experience it as a small, surprising shock - it can cause extensive damage to electrical equipment and sensitive instruments. This damage may either be permanent, causing the device to malfunction (known as a catastrophic failure), or it may occur on a smaller scale that would be difficult to detect before the device is sent out for service (known as latent defect).
A common misconception is that touchscreens work based on heat from fingers. It's not heat that generates touchscreen functionality, instead, most screens work either on finger pressure applied or electrical field disruption. Basically, this means there are two main types of touchscreen technologies, Resistive and Capacitive.
Click here for more information about Resistive and Capacitive Touchscreens
34-C232
34-500
34-810
34-FGN1001
34-844
A common misconception is that touchscreens work based on heat from fingers. It's not heat that generates touchscreen functionality, instead, most screens work either on finger pressure applied or electrical field disruption. Basically, this means there are two main types of touchscreen technologies, Resistive and Capacitive.
Click here for more information about Resistive and Capacitive Touchscreens
34-874
A common misconception is that touchscreens work based on heat from fingers. It's not heat that generates touchscreen functionality, instead, most screens work either on finger pressure applied or electrical field disruption. Basically, this means there are two main types of touchscreen technologies, Resistive and Capacitive.
Click here for more information about Resistive and Capacitive Touchscreens
18-570
16-330
16-340LG
34-8264
34-8743
A common misconception is that touchscreens work based on heat from fingers. It's not heat that generates touchscreen functionality, instead, most screens work either on finger pressure applied or electrical field disruption. Basically, this means there are two main types of touchscreen technologies, Resistive and Capacitive.
Click here for more information about Resistive and Capacitive Touchscreens
34-8453
A common misconception is that touchscreens work based on heat from fingers. It's not heat that generates touchscreen functionality, instead, most screens work either on finger pressure applied or electrical field disruption. Basically, this means there are two main types of touchscreen technologies, Resistive and Capacitive.
Click here for more information about Resistive and Capacitive Touchscreens
44-3745
A common misconception is that touchscreens work based on heat from fingers. It's not heat that generates touchscreen functionality, instead, most screens work either on finger pressure applied or electrical field disruption. Basically, this means there are two main types of touchscreen technologies, Resistive and Capacitive.
Click here for more information about Resistive and Capacitive Touchscreens
705CGNF
16-333
34-C301
16-756AP
63-225PF
31-330R
31-530R
16-351
A common misconception is that touchscreens work based on heat from fingers. It's not heat that generates touchscreen functionality, instead, most screens work either on finger pressure applied or electrical field disruption. Basically, this means there are two main types of touchscreen technologies, Resistive and Capacitive.
Click here for more information about Resistive and Capacitive Touchscreens
34-C232-AP