The JSP Force 8 is a reusable half-mask, negative-pressure respirator. It consists of a filter-holding unit and is made from moulded rubber. The mask has intake and exhaust valves attached to adjustable straps, which fit tightly to the wearer's face.
The JSP Force 8 has a replaceable filter that removes dust when the facepiece seal is leak-tight and delivers high protection against water and oil-based dust, mists and fumes.
Does your mask fit correctly?
If your mask isn't fitted correctly, it won't give you the protection you need. Luckily, the new Force 8 PressToCheck means that the fit of the JSP mask can be checked quickly and easily.
1. FIT IT! Put the straps and harness over your head and pull them to a suitably tight and comfortable fit for you.
2. PRESS IT! Use the PressToCheck function and squeeze the front and backs of both filter covers together to stop air from entering through the filters.
3. CHECK IT! When you inhale, no air should come through the mask. If it does, adjust the mask and straps and repeat the process until it doesn't. Release when seal is made.
What makes the JSP Force 8 Half Mask so great?
It provides protection against construction dust.
Made from lightweight thermoplastic rubber, it is flexible, fits most face shapes and is comfortable to wear.
The 4-point cradle suspension harness with quick-release buckles ensures a daily face fit reassurance.
The CR2 reflective strips create increased visibility in low light environments for added safety.
The face mask components break down easily, allowing for cleaning and maintenance, making it more hygienic.
It passed the dolomite clogging test and conforms to EN143.
Add the P3 Filter which:
Fits easily to the Force 8 Respirator
Has an advanced Typhoon Exhalation Valve that provides low breathing resistance, low heat, moisture and CO2 build-up also performs well at low temperatures.
Features a Force 8 PressToCheck function, which instantly indicates if you have an effective face seal.
Take a look at the JSP Force 8 Mask Here and our PressToCheck P3 Filters here.
Not sure what type of panel adhesive you should be using? Unsure as to the differences between them? Take a look below at panel adhesive explained.
The 3 Main Types of Adhesives
Acrylic Based-
Acrylic Adhesives are manufactured using acrylic or methyl acrylic polymers & fillers. They dry by a loss of water into a substrate (one of which must be porous). They are extremely strong and efficient in bonding multiple objects together and are very environmentally resistant.
Solvent Based-
Solvent based adhesives are manufactured using rubbers & resins. They are a glue or adhesion product that usually comes in the form of a liquid. Resins are dissolved in a volatile solvent to produce a tacky polymer solution, which can be extremely adhesive when dry. These dry by the evaporation of solvent air.
MS/Hybrid Polymer Based-
MS/Hybrid Polymer based adhesives combine polyurethane & silicone technology to deliver hybrid sealant that is extremely versatile. These are a one-part, elastic adhesive based on a modified silane polymer that cures when exposed to moisture to form high-performance elastomer.
Which Panel Adhesive should I order and why?
Tackling inefficient removal of silica dust on construction sites is a priority for the UK Health and Safety Executive (HSE) and construction sites are legally required to use an M-class vacuum or extractor. That’s where the V-TUF M-Class Mini comes in! It is the safest and most efficient way to tackle dust on-site.
9% filtration efficiency
Lightweight (Only 5kg)
Washable filters
Integrated filter shaker system
Lightweight, compact, easy to store
Extraction velocity monitor
Using a V-TUF M-Class Mini protects those working on construction sites as it reduces the amount of harmful dust particles they breathe in through the air.
Regularly breathing construction dust can cause diseases like lung cancer, asthma, chronic obstructive pulmonary disease (COPD – which includes emphysema and other breathing difficulties) and silicosis.
Silica is the second biggest killer of construction workers after asbestos." (HSE) Using a V-TUF M-Class Mini protects those working on construction sites as it reduces the amount of harmful dust particles they breathe in through the air.
Unrated vacuums can exhaust over 80% of harmful dust particles back in the air, which remain airborne for up to 8 hours. The V-TUF M-Class Mini, paired with M-Class rated filter bags that have a 99.9% filtration efficiency, and has been designed to protect your workforce from serious long-term health problems and disease in the future.
Save time and money
Using a V-TUF M-Class Mini makes cleaning up and packing away much quicker, enabling you to swiftly move on to the next project. Efficient dust extraction can also prolong the performance of the tools and accessories used on-site. It ensures that tools aren't clogged up with dust and require less maintenance.
If you choose to invest in a V-TUF M-Class Mini you’ll need to use M-Class dust filter bags. Extra strong with a hard cardboard collar and a soft rubber sealer ring, our M-Class Dust Filter Bags are approved for the use in the V-TUF M-Class Vacuum range.
The construction Industry seems to be in an endless battle of ensuring the client is satisfied and battling external challenges that occur throughout a project. 2021 has definitely thrown a lot of challenges at the construction industry. Let's take a look at them;
1.There's a Labour Shortage.
The construction industry in the UK has long relied on skilled workers from overseas. However, over the past year, contractors have reported losing up to 50% of their workforce. Why? The pandemic saw many skilled workers return to their families in foreign countries for fear of being separated for long periods. Then, of course, there are the consequences of Brexit, which saw many decide to return to their home countries.
2. There's a Material Shortage.
Not only is there a labour shortage, but there's a material shortage too. Raw materials are in short supply everywhere, not just in the UK. There are a few external factors that have contributed to it. Firstly, global demand, in general, is high. Secondly, thanks to Covid, there have been many factory closures, and production has slowed down considerably. This is true of particular products such as insulation, paints, adhesives and packaging.
3. There's an Increase in Price.
The shortage in raw materials has caused prices to increase at an alarming rate. Lengthening lead times and an increase in demand has seen some products rocket in price by 250%. There's certainly never been another year quite like it for soaring costs.
Fire doors are an essential part of the fire safety protocol in many residential buildings. Due to the importance, it must be carried out by a professional in the field who not only knows which specified products to use but is specifically trained in the installation of fire doors.
The fire suppressing capabilities of a fire door can be compromised if not correctly installed.
So what should you consider when fitting a fire door? Here are the 5 most common installation faults;
Faulty Fire Seals
61% of fire or smoke seals on Fire Doors do not comply with the Regulatory Reform Fire Safety Order 2005. All fire doors need a gap between the perimeter of the door and the frame so it can function correctly. However, to be complaint, an intumescent fire or smoke seal is required. This expands to minimise the amount of smoke and fire getting through the perimeter gap in the event of a fire.
Incorrect Signage
1 in 3 fire doors have signage that display incorrect or outdated information. Fire door signage must be kept up to date as it is used to guide people in an emergency and to instruct people to keep the fire door shut at all times.
Fire Door Damage
15% of fire doors have visible damage that could prove fatal in a fire. The door leaf is an important component of a fire door, and it must sit properly against the door stop. To work effectively, it must be free of distortion and any dents or holes.
Unsuitable Hinges
1 in 5 fire doors have unsuitable hinges. Fire doors must have a minimum of 3 hinges all secured with the right sized screws and be free of metal fragments and oil leakage. All non-combustible packing should be removed.
Excessive Gaps
34% of fire doors have excessive gaps between the door and the frame. Gaps of more than 3 mm between a fire door and its frame will not hold back fire, smoke, or gasses in an emergency situation. Excessive gaps also fuel the fire by enabling oxygen to get through and can collapse easily when a fire hose is used.
Fitting a Fire Door?
Look at our 750ml Fire Door Foam by Fire & Acoustic Seals.