Using hand and power tools to cut plastic materials during conatruction activities can generate microplastics. Airborne microplastics is a type of particulates. Further studies are needed "on the different types of cutting tools and their associated MP production".[1]
Classification
Power tools are classified as either stationary or portable, where portable means hand-held. Portable power tools have obvious advantages in mobility. Stationary power tools, however, often have advantages in speed and precision. A typical table saw, for instance, not only cuts faster than a regular hand saw, but the cuts are smoother, straighter, and more square than what is normally achievable with a hand-held power saw. Some stationary power tools can produce objects that cannot be made in any other way. Lathes, for example, produce truly round objects.
Stationary power tools for metalworking are usually called machine tools. The term machine tool is not usually applied to stationary power tools for woodworking, although such usage is occasionally heard, and in some cases, such as drill presses and bench grinders, exactly the same tool is used for both woodworking and metalworking.
Airborne particulate matter is a Group 1 carcinogen.[4] Particulates are the most harmful form (other than ultra-fines) of air pollution[5] as they can penetrate deep into the lungs and brain from blood streams, causing health problems such as heart disease, lung disease, and premature death.[6] There is no safe level of particulates. A 2013 study concluded that "particulate matter air pollution contributes to lung cancer incidence in Europe".[7] Worldwide, exposure to PM2.5 contributed to 4.1 million deaths from heart disease, stroke, lung cancer, chronic lung disease, and respiratory infections in 2016.[8] Overall, ambient particulate matter is one of the leading risk factor for premature death globally.[9]
Many construction tasks create dust. High dust levels are caused by one of more the following:
equipment – using high energy tools, such as cut-off saws, grinders, wall chasers and grit blasters produce a lot of dust in a very short time
work method – dry sweeping can make a lot of dust when compared to vacuuming or wet brushing
work area – the more enclosed a space, the more the dust will build up
time – the longer you work the more dust there will be
Examples of high dust level tasks include:
using power tools to cut, grind, drill or prepare a surface
Some industry standards on the size and amount of dust emitted by power tools exist,[11][12] though it appears that they are not widely known or used globally. Knowing that dust is generated throughout the construction process and can cause serious health hazards,[13] manufacturers are now marketing power tools that are equipped with dust collectors (e.g. HEPA vacuum cleaners) or integrated water delivery system which extract the dust after emission.[14][15] However, the use of such products is still not common in most places. As Q1 2024 petrol powered tools are banned in California.[16]
Early Industrial Revolution-era factories had batteries of power tools driven by belts from overhead shafts. The prime power source was a water wheel or (later) a steam engine. The introduction of the electric motor (and electric distribution networks) in the 1880s made possible the self-powered stationary and portable tools we know today.[19] The global market for power tools is $33 billion (in 2016) and estimated to reach $46 billion in 2025.
Safety Enhancement
Prior to the 1930s, power tools were often housed in cast metal housings. The cast metal housings were heavy, contributing to repetitive use injuries, as well as conductive – often shocking the user. As Henry Ford adapted to the manufacturing needs of World War II, he requested that A. H. Peterson, a tool manufacturer, create a lighter electric drill that was more portable for his assembly line workers.[20] At this point, the Hole-Shooter, a drill that weighed 5 lbs. was created by A. H. Peterson. The Peterson Company eventually went bankrupt after a devastating fire and recession, but the company was auctioned off to A. F. Siebert,[21] a former partner in the Peterson Company, in 1924 and became the Milwaukee Electric Tool Company.[22]
In the early 1930s, companies started to experiment with housings of thermosetting polymer plastics. In 1956, under the influence of Hans Erich Slany, Robert Bosch GmbH was one of the first companies to introduce a power tool housing made of glass filled nylon.[23]
Energy sources
As of 2021, an electric motor is the most popular choice to power stationary tools. Other power sources include steam engines, direct burning of fuels and propellants, such as in powder-actuated tools, or even natural power sources such as wind or moving water. In the past, stationary tools were powered by windmills, water wheels, and steam. Some museums and hobbyists still maintain and operate stationary tools powered by these older power sources. Portable electric tools may be either corded or battery-powered. Compressed air is the customary power source for nailers and paint sprayers. A few tools (called powder-actuated tools) are powered by explosive cartridges. Tools that run on gasoline or gasoline-oil mixes are made for outdoor use; typical examples include most chainsaws and string trimmers. Other tools like blowtorches will burn their fuel externally to generate heat. Compressed air is universally used where there is a possibility of fuel or vapor ignition - such as automotive workshops. Professional level electric tools differ from DIY or 'consumer' tools by being double insulated and not earthed - in fact, they must not be earthed for safety reasons.
Battery types
Different battery powered power tools often use batteries which are not compatible across brands and models. This may cause vendor lock-in, and results in poor sustainability if and when either the battery, charger, or power tool component fails, resulting in potentially all having to be replaced.
Examples of battery differences include the battery technologies themselves, with nickel-metal hydride (NiMH) and nickel–cadmium batteries (Ni-Cd) being common previously,[24] but as of 2021, lithium-ion batteries have become the de facto standard for new power tools. The voltage is one of the most important factors for battery compatibility. In simple terms, a higher voltage rating on the tool often means that the power tool can deliver more power, with all else being equal. Using a battery with the wrong voltage rating may damage the tool, persons, or surroundings. As of 2021, 18-volt battery packs are the de facto standard in new power tools. The ampere-hour, in simple terms, tells something about how long the power tool can operate before it needs to be recharged. If comparing two batteries with the same battery technology and same voltage rating, a battery with twice the amp hour rating should last about twice as long. In practice there may however be some variations to this. Also, batteries with a higher amp hour rating in practice can also often let the power tool deliver a slightly higher peak power due to the ability to deliver a higher current.[citation needed]
Even when using the same battery technology, voltage rating and amp hour rating, the interface of batteries for power tools are often not compatible across different manufacturers, and sometimes also not even within the same brand or product line. There are examples of aftermarket adapters being made so that the user can mix and match batteries between well-known brands, but these often do not fully implement the tools battery safety and monitoring systems and the use is done at the user's own risk.
Battery alliances
There are initiatives with the goal that the same battery can be used across products from several manufacturers, mostly those who offer special tools rather than general ones. Mainly two German companies have opened their 18V systems for others:
In June 2018, nine companies presented a manufacturer-overlapping system for rechargeable batteries called "Cordless Alliance System" (CAS).[25] It is based on Metabo's 18 Volt battery system.
In 2020, Bosch initiated the "Power For All Alliance".[26] Notably, the alliance consists of the brands Gardena, Gloria,[27]Wagner[28] and Rapid. However, the Power For All Alliance batteries will only be used on Bosch's consumer tools in the Bosch Home & Garden line and Bosch Home Appliances line.
AMPShare – powered by Bosch Professional[29] is the new name for the alliance using Bosch professional ("blue") tools with its own battery and charger system which is incompatible with the Power For All batteries. Aimed at most parts of the world except North America, it claims to be based on 80 million batteries sold since 2008. Over two dozen companies take part.