World Encyclopedia of Cars
The best old cars, news and reviews about old cars. Stay in touch!

Leyland DAF 55.210

All Leyland DAF Photos

Leyland DAF 55.210 - information: Leyland DAF 55.210 is a very good car, that was released by "Leyland DAF" company. We collected the best 10 photos of Leyland DAF 55.210 on this page.

Brand Name Leyland DAF
Model Leyland DAF 55.210
Number of views 21635 views
Model's Rate 7.6 out of 10
Number of images 10 images
Interesting News
  • The science and silence of AMG.

    AMG chairman Tobias Moers has revealed to Wheels that AMG is shifting its focus away from power and on to sharper dynamics for its future models. This means the introduction of high-tech systems such as active aerodynamics, four-wheel steering and even a Drift Mode function as AMG moves into a new battleground in the war for performance car ascendency. AMG has long held a power advantage over its rivals at BMW’s M Division and Audi RS, and Moers says the focus is now on finessing how that prodigious grunt is sent to the road. “It’s not my target to be the most powerful car,” he said. “The target is to be the best driving car. The next step is to be more active, with more active systems like active aero, and to be more active with kinematics.” Moers revealed AMG is well advanced in developing a range of active systems, most of which will debut on the much-hyped road-legal version of the AMG GT3 racing car due later this year. Expected to be badged as the GT R, Moers says the Porsche 911 GT3 rival “will signal the next step for AMG.” It’s also likely to be the first AMG to utilise four-wheel steering. “We discussed active technology earlier, and this will be one of those systems,” Moers told us. “It will help to increase high-speed stability, yaw damping at high speed, and you can increase agility in the car as well. It’s good technology.” The GT R, which is in the final stages of development, takes heavy inspiration from the GT3 racer (pictured) and will include a more aggressive, track-inspired body kit, dominated by a larger rear spoiler and front splitter. Moers hinted this makes the GT R the ideal model to debut active aerodynamic components to improve dynamics. The GT R will also be lighter than the 1570kg AMG GT S, boast wider tracks front and rear, and could produce as much as 415kW from its 4.0-litre twin-turbo V8. Moers wouldn’t be drawn on the GT R’s potential power output, but did say “we have plenty of room to grow [with the 4.0-litre engine].” Currently the 4.0-litre V8 produces 375kW/750Nm in the AMG GT S. Future models will see AMG step even further along the hightech route. Moers revealed he sees a future where AMG models are powered purely by electricity and confirmed his engineers are already developing electric drivetrains that could manifest in a number of different forms. “Electrification makes more sense to me than performance diesels,” he said. “We are looking at everything from plug-in hybrids to pure electric and electric turbos because we are not in position to exclude something from our portfolio. So we’ll do work on several programs at once to find our own path on electrification for the future.” But while Moers sees electrification as inevitable, he’s quick to assure AMG fans that future electric models will retain the brand’s character. “Sound is crucial to AMG, so we will find a solution,” he said. “We found one with the SLS Electric Drive and we know it’s important.” The 552kW SLS AMG Electric Drive, which in 2013 claimed the title as the world’s quickest production electric car with a 0-100km/h sprint of 3.9sec, pumped artificial noise into the cabin during acceleration via its audio system. What’s unlikely to have a long future is AMG’s mighty 12-cylinder engine. Moers confirmed that AMG’s iconic 6.0-litre twin-turbo V12 is under threat due to evertightening emission laws. “We do have V12 aficionados worldwide who want us to keep it, but the V12 segment no longer represents AMG as a brand. There are customers that are very interested in that engine in that exclusive segment, so we are responsible for engineering a V12 and it’s up to us to give the V12 a future. But that’s not decided.” Moers said recent changes to China’s emissions rules have placed the V12’s future in jeopardy. “That’s giving us a big headache with the V12, so it’s a question of how we proceed. That’s what we’re discussing in the company now.”
  • NORTON FLAT TRACK.

    This modern Norton dirt track custom is the work of Jamie Ireson’s 72Motorcycles, in collaboration with Norton Motorcycles - a tribute to the 1970s RonWood racing machine that won three Ascot track championship titles and was taken to a National dirt track victory by Alex Jorgenson. Based on a newCommando 961, it was recently launched at Motorcycle Live on the official NortonMotorcycles stand as the first of a limited edition run of 12. Ireson said: “The project started whenmy partnerMerryMichau photographed the 2014 Norton brochure. She toldNorton CEO Stuart Garner that I build custombikes and it went from there. Stuart asked us to come up with some ideas and it turned out that we had the same thoughts on building a custombike based on RonWood’s dirt tracker. Ireson is a design engineer by trade and used his experience gained in the automotive industry to model the bike in CAD before committing to metal. “The one thing we needed to do was lower the bike, and working in CAD with models that Norton supplied allowedme to see what effect that had.” That was November 2014 but it took until June 2015 for the project to take off. “Norton sent me a rolling chassis and engine unit with the only stipulation being that the bike had to be ready forMotorcycle Live at the NEC,” says Jamie. The engine and transmission are standard 961, as is the main frame, but Jamie modified the rear end. He says: “The RonWood bike has a really small oil tank, because it’s designed to only do a small number of laps. I cut off the end off the original tank, made up some bends on a CNCmachine and got themwelded up to follow the lines of Ron Wood’s [oil-carrying] frame.” According to Jamie, the standard Norton chassis geometry is slap bang in the middle of what is considered an ideal flat track set-up, but this build had to retain the standard 17in wheels. The swingarm is also standard, but with added bracing. The standard Ohlins forks were too long so Jamie opted for shorter, larger-diameter 58mm Ducati Panigale forks which slot into new yokes made from Jamie’s CAD drawings by Fastec Racing in Suffolk, who also did machining work on footpeg mounts and the velocity stacks. Jamie produced a buck for the tank, from which Parker Fabrication in Bournemouth produced the alloy tank. “The inspiration of the Ron Wood bike was the gorgeous red paintwork and tank graphics. We talked with out painters, Image Design, about giving it a modern twist, but they said it was so good we should leave it. The only change is using the current Norton logo.” The engine is standard, but Jamie’s removed the original airbox, so: “we might pick up anything between five and 10bhp.” The exhaust follows the same lines as the Ron Wood bike. It’s all custom made and hand-rolled by Tom at Foundry Motorcycles. The pipes have been given a super hard-wearing ceramic-coated black by Wes at Hi-Spec Coatings in West Sussex. Lasertech Engineering did all the frame welding. The Norton 961 MM Flat Track is priced at ?30,000. “All 12 will be identical except for the number,” says Jamie. “We’ve got 44. We’re keeping this original bike. Customers can have any number, but we won’t use one number twice.”
  • Audi’s electrified future.

    The introduction of mild hybrids to Audi’s model range is set to edge efficiency ever closer to the kind of economy figures enjoyed by TDI owners. But it doesn’t mean the death of the diesel engine, as the introduction of cutting edge technology can be paired to both TDI diesel and TFSI petrol engines. Audi says that within ten years, its entire model range will feature the technology. The key elements of the new system are an 11 Ah capacity lithium-ion battery pack and belt starter generator, with the latter replacing the current starter motor. Coasting becomes possible from around 9mph upwards, so that if the driver takes their foot off the accelerator, the car will coast along for a short time with the engine off, saving fuel. It’s possible to recuperate up to 5kW (7bhp), with the generator returning that power, reducing fuel usage and boosting economy as a result. And while this system can be integrated into current 12-volt systems, Audi is on the verge of announcing that it will put a new 48-volt system into production, with a capacity of harnessing 12kW (16bhp), that will allow coasting for up to 30 seconds, delivering even better efficiency compared to the 12-volt system. The company first gave a glimpse at the technology in the Prologue Concept car last year at the Los Angeles motor show. Other benefits of the introduction of a 48-volt electrical system includes the ability to have much smaller cable cross sections, reducing the weight of the wiring harness, and because it has four times the power, there’s opportunities to add additional innovative technology for the suspension and drivetrain. Further into the future, Audi’s engineers plan to convert the auxiliary systems, like pumps, superchargers for the engine, transmission and air conditioning system to 48 volts. Today these are driven hydraulically or by the engine, but in the future they will be powered by electricity and lighter and more compact. Audi will soon announce an electromechanical active roll stabilisation system, which features an electric motor and a three-stage planetary gearbox that separates the two halves of the stabiliser from each other. For relaxed and comfortable driving, the two halves are decoupled, resulting in cossetting ride comfort. For the sportier driver, the tubes are interconnected and twist against each other, delivering a tauter, more dynamic ride, and less roll when cornering. The front and rear stabilisers can also be adjusted independently allowing even greater degrees of fine tuning. The system is also capable of harnessing energy, and the motor can act as a generator, converting it to electrical energy. But Audi’s engineers are already looking at a second, more advanced project using the 48-volt setup, though it is still in the very early prototype stage. Being developed under the working title of eROT, an electromechanical rotary damper replaces today’s hydraulic item. The system isn’t too far apart from the active roll stabilisation arrangement in terms of basic principles, but a strong lever arm absorbs all of the forces that occur on a bumpy road, and via a series of gears, the force is transmitted into an electric motor, which then converts it to electricity. Recuperation is, on average, around 150 watts on an average road, with a freshly resurfaced road generating as little as 3 watts, while a badly maintained country lane may generate as much as 613 watts. Over a cross section of different roads, CO2 emissions savings could be as much as 3g/ km or four to five mpg.
Top Leyland DAF models
Popular Searches
World Encyclopedia of Cars
Copyright 2015. All rights under protection.