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Why Steel axles of machines are made to run in brass sockets or bearings?
Wiki User
∙ 13y ago
The harder steel axle, presumably the more expensive part, will last longer because any grit, spalling or other damage would tend to affect the softer sacrificial brass bushing or bearing, presumably the cheaper item.
Depending on the deign of the machine, it should also be easier and faster, read cheaper, to replace the bushing or bearing rather than the entire axle.
Wiki User
∙ 13y ago
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What are CO2 dragster constraints?
Co2 Dragster constraints are the limits or tolorances that your dragster must fall within. Whether it is length of car,width of car, weight of car, length of axles, placement of axles, or any other guideline that must be adhered to when building your car.
How many cubic yards in a tandem load?
The average tandem axle truck can carry about 12 cubic yards of soil. Generally, a tandem axle truck has three axles.
How does oil effect the earth?
Just like the axles in your car, oil keeps the earth's bearings lubricated so it rotates more easily and with less friction. As we extrude oil from the earth, there is less oil available to reduce the friction and so heat builds up and the earths slows a little each year. This can be observed by the need to add a leap-second to our clocks every few years. If the trend continues, the earth's core will get hot enough that volcanos will burst forth everywhere, but by then the earth should be spinning so slowly that temperature extremes will range from above boiling on the sun-facing side to near 0 Kelvin on the night side of earth. The net is that all advanced forms of life will long be dead from lack of water and food, so we won't be around to witness all those volcanos, so we won't care. Better to leave the oil in the earth where it does the most good and the least harm.
What are electrical suzis on a Arctic truck?
Electrical Suzis are the electrical lines passing alongside the hydraulic lines (or air lines) passing from the rear of the artic tractor unit; and connecting the the trailer. Hydraulic lines used to be colour coded, but this is no longer tha case. Hydraulic lines operate the trailer braking system (in conjunction with the footbrake and parking break); these lines include an emergency hydraulic line, should the first fail. The electrical connection lines operate the lights on the rear of the trailer, any running lines, and operates an anti-lock braking systems on the trailers axles. Electrical lines can also be used to power electrical auxiliary equipment; such as a tail-lift, or a HGV Box refrigeration unit. Hope this helps. Source: I'm an artic driver. :) J_vickers@live.co.uk
What is JK Starley's timeline?
its long but here it isï‚· 1860s J.K. Starley sets up business in Coventry.Starley starts to manufacture sewing machines in the Coventry area. ï‚· 1884 Rover 'Safety' cycles are introduced.Starley introduces early tricycles and bicycles, using the name 'Rover' for the very first time. The Rover 'Safety' tricycle is followed by the Rover 'Safety' bicycle. The Rover 'Safety' was a forerunner of the modern pedal bicycle, and the name 'Rover' continues to mean 'bike' in Poland. ï‚· 1888 Rover Electric Carriage developed.Starley creates Coventry's first 'car' - an electric tricycle which is never developed beyond the prototype stage. ï‚· 1896 Company becomes Rover Cycle Company Limited.The Rover name is well established, and the company is renamed. ï‚· 1904 Rover stars to build its first car. ï‚· 1906 Production switches to cars only.Bicycle production stops, and the company is renamed to Rover Company Limited. ï‚· 1920s-30s Growth and Depression.By 1920, Rover has established itself as one of Britain's important car manufacturers. Growth levelled out during the 1920s, and Rover suffers badly from the Depression in the 1930s. ï‚· 1933 Spencer Wilks becomes Managing Director.Wilks starts to turn Rover around, and specialised in the production of prestige vehicles. Wilks also introduced a variety of systems to reduce work-in-progress - a forerunner of modern operations management principles. Spencer Wilks also appoints his brother, Maurice, to the design department. ï‚· 1937-1945 Rover factories work on War Effort.The Rover factories at Acocks Green and Solihull become a part of the Government's Shadow Factories scheme and build a variety of war parts including engines for aircraft and tanks. After the end of World War 2, demand continues for the Rolls Royce V12 Meteor tank engines, which continue to be manufactured at Acocks Green. Solihull begins to prepare to manufacture cars again with plans to manufacture 20,000 cars per year. With a war-crippled economy, the Government demands products for exports and continues to control steel allocations due to short supplies. Rover is forced to drop their ambitious plans. ï‚· 1946 Maurice Wilks' Jeep needs replacing.Maurice Wilks had a farm on Anglesey that made use of a beaten-up war surplus Willys Jeep. He found this Jeep useful for a variety of practical farm uses. Nearing the end of its life, Maurice was considering a replacement. No British alternative existed, and parts for a new Willys Jeep were hard to get at that time. What spares were available, had to be purchased as bulk war surplus stock. This problem identified a gap in the market for a farm vehicle that was smaller than a tractor but was more versatile, and was rugged without being cumbersome. ï‚· September 1947 The 'Land Rover' project was made official.Board Meeting minutes describe it as "the all-purpose vehicle on the lines of the Willys-Overland post-war Jeep was the most desirable" using the P3 engine, gearbox, and back axle.In reality the first prototypes were already running, with design work starting in spring 1947. ï‚· April 1948 Land Rover appears at Amsterdam Motor Show.Development of the Land Rover progressed quickly. The P6 engine proved to be too small, and a 1.6 litre engine is fitted instead. Two prototype 80-inch wheelbase Land Rovers are exhibited at the Amsterdam Motor Show. The new vehicle is greeted with enthusiasm, and was eaten up by the motoring press. ï‚· 1951 Land Rovers out-sell all other Rover vehicles 2 to 1. ï‚· 1954 86" and 107" Land Rovers introduced.During the 1950s, the wheelbase expands to 86" and larger engines are fitted. A long wheelbase 107" vehicle is introduced with a station wagon body. A diesel option is also introduced at about the same time. ï‚· 1958 Series II introduced.The Series II introduces the familiar barrel-sided body to the Land Rover range. The 4 cylinder 2,286cc engine is also introduced. Wheelbase options are 88in and 109in. Synchromesh is added to the top two gears. ï‚· 1961 Series IIA is introduced.This provided a diesel engine with a 2,286cc capacity to match the petrol option. ï‚· 1962 12-seater Station Wagon, and Series IIA Forward Control introduced.A 12-seater station wagon body is introduced for tax reasons. Fitting 12 adults into this vehicle was a tight squeeze.The first Forward Control vehicle is introduced. Intended as a robust load carrier, this positioned the cab above the engine. ï‚· 1966 Series IIB Forward Control is introduced.Due to required chassis strengthening, the IIA Forward Control is too heavy for the 4 cylinder petrol engine; and a 6 cylinder petrol engine is fitted. Heavy duty axles and larger tyres are also fitted. A diesel option was also available. The 6 cylinder petrol engine becomes an option on the standard 109" Land Rover from 1967. ï‚· 1967 Rover and Leyland merge.Rover and Leyland merge, with Leyland becoming the majority partner. ï‚· 1968 1 ton model introduced. Heavy duty '1 ton' version of the standard Series IIA 109" (3/4 ton) is introduced. ï‚· 1970 Range Rover launched.The Range Rover improves on the off-road capabilities of the Land Rover, whilst introducing the comforts and styling normally found on cars. Coil springs are introduced for the first time. ï‚· 1971 Series III launched.Replacing the Series IIA, the Series III included a number of refinements such as synchromesh on all high-box gears. Externally, it looks very similar to the classic IIA except for the grille and headlights. ï‚· 1972 Forward Control 101"A V8-powered Forward Control is introduced and sells well to the military. Unfortunately, it proves too utilitarian for civilian markets, and it remains a military-only vehicle. ï‚· 1976 One Millionth Land Rover is produced. ï‚· 1979 Stage One 109" V8 introduced.A new development programme begins to bear fruit with a V8-engined 109" Land Rover dubbed the "Stage One". Essentially a Series III, this had a grille flush with the wings to allow room for the larger engine. ï‚· 1983-84 90" and 110" vehicles launched.The venerable Series III is replaced by the 90" (1984) and 110" (1983) Land Rovers. These introduce modern styling, and coil springs. A 130in extra-long wheelbase version is also produced. ï‚· 1988 British Aerospace take over the Rover Group. ï‚· 1990 Discovery launched.The Discovery was aimed at the new family 4x4 market, but still had enviable off-road abilities. ï‚· 1990 90" and 110" vehicles rebranded as 'Defender'.In parallel to the launch of the Discovery, the 90" and 110" Land Rovers are rebranded under the 'Defender' name to reflect their use be defence forces. Rebranding is accompanied with a new 200TDi diesel engine option, with the 300TDi option following in 1993. ï‚· 1994 British Aerospace sell the Rover Group to BMW. ï‚· 1994 New Shape P38 Range Rover introduced.The Range Rover is completely re-modelled. The modern P38 Range Rover is aimed more at the on-road luxury SUV market, but is still a good off-road performer - unlike the bulk the competition. ï‚· 1996 Classic Range Rover ceases production.Production of the 'Classic' Range Rover continued in parallel to the P38, but finally cease in 1996. ï‚· 1997 Freelander introduced.The much rumoured CB40 project is revealed to the press as the Freelander. Designed to compete against small 4x4s such as the Honda CRV and Toyota RAV4, the Freelander departed from standard Land Rover design technologies, with a monocoque body and independent strut suspension. The Freelander quickly becomes Europe's best selling 4x4. ï‚· 1998 Discovery Series 2 launched.Remodelled Discovery Series 2, codename 'Tempest' is launched. ï‚· 2000 BMW sell Land Rover to Ford.BMW splits the Rover Group into two, selling Land Rover to Ford. The car division is sold to the British Phoenix management group. ï‚· 2002 Range Rover Mk III launched.The second major redesign of the Range Rover, is launched. ï‚· 2004 Discovery 3 launched.Discovery 3 is launched with a significant re-styling.
Where on a aluminium alloy mountain bike would you find steel?
In several places actually. Fasteners - screws, nuts and bolts - are usually steel. Wheel axles, freewheel mechanisms, brake parts tend to be steel. Aluminium forks may have steel steerers. Bearings tends to use steel.
Where is high carbon steel used in cars?
Mainly fasteners and wheel bearings are high carbon steel, cranks, cams axles connecting rods, springs and some frame parts are med carbon steel. The rest of the steel used in vehicles is mild steel-body, suspension, etc.
Is it recommended to replace rear axle seals but not the bearings on a 1996 Chevy S-10 4wd?
It would be recommended to replace the rear axle bearings and axles when they are worn/bad. If the bearings and axles are okay, just replace the seals.
What are trailer axles made of?
Steel.
How is the material of hub made in a bicycle?
Most bike hubs are aluminium. Aluminium comes from Bauxite ore, which is refined and the metal aluminium extracted. Axles and bearings are generally steel, which comes from iron ore.
Do bmx bikes use the same bearings as skateboards?
No. Skateboards and inline skates all have cartridge bearings, while a lot of bikes have cup & cone bearings. For those bikes that do have cartridge bearings, their axles are thicker than skateboards/skates.
Do you need bearings on a skateboard?
Yes. The bearings are what allows the wheels to mount up firmly but yet spin freely on the axles/trucks.
Can the front axles cause a vibration in the front end?
Yes, the wheel bearings or CV joint could be bad.
What is the wheel and axle made out of?
Modern wheels and axles are made from steel and aluminium.
What simples machines are in a truck?
A lever Wheels and axles An inclined plane (when the truck dumps out its contents)
Why do you use ball bearings?
Because they're a good way to reduce friction and help wheels and axles to spin smoothly and effortlessly.
What size socket do you need to change the wheel bearings on 1998 GMC Jimmy front and back axles?
Need to know if 2 wheel or 4 wheel drive for the front. Either way, there is no nut on the back axles.
