China's milk late discover Melamine

Melamine is a chemical to produce

And also produce

So, Melamine is a poison to human body.

Why Melamine discover in Milk Powder?

Milk powder is produce by milk, the most important of milk ingredients is protein.
Melamine and protein also have the same NA

To reduce the consumption of milk, producer added Melamine to cut cost
Melamine is not easy to taste and discover and looks similar to milk powder

How come lately discovered?

Year 2007, many pets was dead after had the Made in China Pet Foods and USA discovered the content of Melamine ingredient inside.

Year 2008, Many cases was found China's baby having most cases of Kidney problems and no. cases still increasing.

Year 2008 Aug, China 's authority discovered the below favorites brand of milk powder contents Melamine.

Year 2008, Sept 21 Taiwan also discovered many products content Melamine.
After consumption of Melamine into human body, it will transfer to Kidney stone.

Worst side if Kidneys not being recovered and to keep the kidneys function it has to be filtering by below machine frequently until you death, otherwise new kidneys has to be replace.

Which are the products maybe infected

Below products were reported the ingredients content Melamine

Tags: China Milk Melamine

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A classic case-in-point is the actions of a political party following heavy fighting at Vannerikulam and Nachchikuda where 56 soldiers were killed and another 120 injured. The regional hospital morgues to where the remains of the dead soldiers were to be taken were full due to civilian corpses being kept on court orders for inquests.

SLA Officers in charge of the arrangements made inquiries with other much smaller hospitals in the area to keep the bodies for relatives to see until final arrangements were made. They were subsequently granted permission to keep the mortal remains of the men in the small hospitals due to the availability of space.

However, within hours of this, the officers-in-charge received a barrage of calls from persons identified with various opposition parties asking them to confirm that the Army was moving more corpses to smaller hospital morgues because the main hospital morgue had overflown with dead army corpses.

The callers, some of whom were personal friends of the officers were, by that time, convinced that the booking of additional morgues was due to a large number of casualties in the frontlines. Some had made the inquiry in glee commenting that the 'Government' was finally losing the war.

Several of these officers to whom we spoke to were devastated by this but their responses were amazing. One officer told a leading opposition politician the following;

"Sir, soldiers join the Army to die in the battlefield and not to fall off a coconut tree and die! To us, there's a difference in the way we end our lives and we have chosen the former. Our Army never grumbled about fighting when it lost 1,500 men in one night. We will not grumble now. If 4,000 of us have to die to take Kilinochchi, I am happy to be part of that 4,000 for this is why we are in the Army"

So our appeal to our readers is to take the lead in removing the shades of green, blue, red etc from our societies' mind. Urge your family and friends to have our fighting men in mind when they react to failures or even successes in the battlefield. This will help them look beyond the politics.

War is nasty and should be avoided at all cost. But at times when its necessary, be prepared to face the consequences and share both victory and defeat with others because the men who fight up there are already doing that for you.

Tags: Politics Heroes

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Nearly a mile long and 25 stories high, Freedom will be the largest vessel to ever sail the seven seas

Freedom will dwarf the Queen Elizabeth II and become a permanent home for 50,000 people. "Walk in a straight line for about 12 minutes," "If you don't dawdle, you'll cover slightly less than a mile. Now, make a right turn and walk beyond the length of two football fields. Duplicate these lines to make a rectangle, then look up to the height of a 25-story building. This is what Freedom will be

"Freedom will be large enough to bring on more than 50,000 residents, 15,000 employees, 20,000 day guests and still have four times as much roaming-around square footage per person as the most modern cruise liners," Nixon says during POPULAR MECHANICS' visit to see how his ambitious plan is progressing. Taller than the highest buildings in most American cities and topped with a runway that can handle jets, Freedom may someday be the globe-trotting address for 17,000 homes and 4000 businesses. Its dimensions are so colossal that it will have to be assembled at sea. Once it's built, Freedom will circle the earth every two years, following the balmy breezes as it approaches the world's major ports. The wealthiest of her "citizens" will leave their 15-ft. by 80-ft. ocean-view apartments and board their private jets or yachts for jaunts to shore. Meanwhile, the 15,000 people who work aboard the ship will gear up for the next on-rush of day visitors anxious to shop at its duty-free stores and guests checking in to vacation in its hotels and time-share condominiums.

Once under way, life aboard Freedom will be more like living in a bustling city than being on a vacation cruise. Because of its size, the ship will have its own railway system. Courtyards set about its decks will create interior park and recreation areas. Nixon has calculated that the resident population can support its own local economy, which means that residents will, in many cases, also be operating businesses at sea, in malls throughout the length of the ship.

As might be expected, this plan for a ship capable of carrying as many as 115,000 people The reason is not simply a matter of Freedom's proposed 4320-ft. length, which is nearly five times that of the currently largest cruise ship, Carnival Cruise Line's 900-ft. Destiny, but the enormity of its mass. When naval architects compare ships, they speak in terms of tonnage rather than length. The Destiny displaces 100,000 tons of water. The largest vessel afloat, the supertanker Jahre Viking, displaces 564,739 tons. Freedom will displace 2.7 million tons.

Nixon says that while there are many factors that determine a beam's maximum length, a steel beam can reasonably be expected to span a distance 15 times its height. "A ship with an effective depth of 80 ft. of hull [measured from keel to main deck] can theoretically span a maximum of 1200 ft.," Nixon says. "On Freedom, the effective beam runs 350 ft., from the bottom of the ship to the aircraft runway." The result is a 4320-ft.-long floating beam that draws 37 ft. of water as it rides atop waves, rather than plowing through them.

"We're not doing anything new," Nixon says. "We've taken technologies used in one area and applied them here." Indeed, Nixon says that during World War II the Navy used floating docks longer than Freedom. More recently, Kvaerner, the Norwegian ship and oil platform builder, proposed that the U.S. Department of Defense build a 5249-ft. floating airfield capable of supporting 10,000 troops. Called SeaBase, it would use Kvaerner's patented linking system to join three giant semi-submersible drilling rigs into a landing field.

Freedom promises to be as different from today's oceangoing vessels as the Queen Elizabeth II is from the Mayflower. Starting with the keel, Freedom doesn't have one. This backbone is missing because Freedom is constructed of 520 airtight steel cells. Each will measure 80 ft. tall. Depending upon its location, each will be 50 to 100 ft. wide and 50 to 120 ft. long. Assembled ashore on rails, they will be bolted together to form base units, each about 300 by 400 ft. These will then be floated out to sea and joined to form the completed base.

About 10 months after the start of construction on the first airtight cell, three base units will have been assembled at sea. At this point, the tempo of construction will increase. Meanwhile, on shore, four assembly lines will be dedicated to building airtight cells. At sea, work will begin on the 25-story superstructure. By the 17-month mark, the last base unit will be bolted in place and the 25th level completed.

Two years after the start of construction, 4000 of Freedom's planned 21,000 units will be ready for Well, not exactly. Freedom won't have the sort of boilers you find on traditional ships. She will be propelled by 3700-hp motorized units protruding through 100 of her watertight cells. About half of these will be shrouded propeller units. The balance will rotate 360 degrees, like those used on tugboats. At about $1 million each, these are among the world's most expensive marine power plants. Using GPS, Freedom's captain could simply sketch the ship's route on a touch-screen and the $6 billion ship would find its own way.

Tags: Largest Ship Technology

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DaimlerChrysler is exhibiting a special concept study at the 35th Tokyo Motor Show: the F 400 Carving is a research vehicle packed with dynamic systems designed to give the cars of tomorrow and beyond substantially enhanced active safety, dynamic handling control and driving pleasure.

The main attraction in the F 400 Carving is a new system that varies the camber angle on the outer wheels between 0 and 20 degrees, depending on the road situation. Used in conjunction with newly-developed tyres, it provides 30 percent more lateral stability than a conventional system with a fixed camber setting and standard tyres. This considerably enhances active safety, since better lateral stability equals improved road adhesion and greater cornering stability.

Active camber control boosts the research vehicle's maximum lateral acceleration to 1.28 g, meaning that the concept study outperforms current sports cars by some 28 percent.

The active camber control in the F 400 Carving paves the way for an equally new asymmetrical-tread tyre concept. When the two-seater car is cornering, the outer wheels tilt inwards, leaving only the inner area of these tyres in contact with the road. This area of the tread is slightly rounded off. Meanwhile both the tread pattern and the rubber blend have been specially selected to ensure highly dynamic and extremely safe cornering. When driving straight ahead, however, it is the outer areas of the tyres that are in contact with the road. These areas have a tried-and-tested car tread pattern, offering excellent high-speed and low-noise performance. Two different concepts therefore come to fruition in a single tyre, thanks to active camber control.

The research vehicle's 'Carving' epithet symbolises the new technology, evoking images of the high-speed winter sport in which adepts perform sharp turns on a specially-shaped high-grip ski.
Less risk of skidding and shorter emergency stopping distance

The F 400 Carving is something of a mobile research laboratory for the Stuttgart-based automotive engineers. They will be using it to investigate the undoubted further potential of this new chassis technology: besides of-fering excellent directional stability during cornering, the new technology ensures a much higher level of active safety in the event of an emergency. By way of example, if there is a risk of skidding, the wheel camber is in-creased by an appropriate degree. The resultant gain in lateral stability significantly enhances the effect of ESP®, the Electronic Stability Program. If the research car needs to be braked in an emergency, all four of its wheels can be tilted in next to no time, thus shortening the stopping dis-tance from 100 km/h by a good five metres.

Electronic steering, active hydropneumatic system and light from glass fibres

In addition to active camber control, the F 400 Carving research car is fitted with other forward-looking steering and chassis systems, including a steer-by-wire system. Sensors pick up the driver's steering inputs and send this information to two microcomputers which, in turn, control an electrically driven steering gear. The DaimlerChrysler engineers also charted new territory when it came to the suspension tuning, and introduced a first: an active hydropneumatic system that optimises the suspension and shock absorption in line with the changing situation on the road, all at lightning speed.

The F 400 Carving is also the showcase for a totally new form of lighting technology developed by the Stuttgart-based researchers: fibre-optic lines are used to transmit light from xenon lamps beneath the bonnet to the main headlamps. This technology stands out by virtue of its high perform-ance and extremely space-saving design. Additional headlamps positioned on the sides also come on when the car is cornering.

Exciting design symbolising innovation and emotion

The F 400 Carving is an exciting and harmonious blend of technology and design. The shape of the sports car – notably its distinctive wing profiles – provides the necessary room for the wheels to move when the active camber control is at work during cornering and, at the same time, emphasises the youthful and highly-adventurous nature of this concept study. In order to reflect the research car's high-quality driving dynamics, the de-signers opted for a speedster concept – incorporating an extended bonnet, a windscreen with an extremely sharp rake, a short tail end and an interior tailor-made for two.Source - Mercedes-Benz

The Design of the F 400 Carving: Exciting Mix of Innovation and Emotion• Forward-looking technology with real design appeal

• Speedster concept for supreme driving pleasure

• Powerful lines symbolizing superlative driving dynamics

• Interior with carbon seats and weatherproof materials


The F 400 Carving design team focused on two objectives: lending shape to leading-edge technologies and giving innovations real design appeal.
A great deal of imagination was required in order to harmonize the technology and the design. To put it another way: it was a design job like no other. The F 400 designers found the unique chassis technology a tough nut to crack. They had to come up with a concept that allowed the wheels enough room to move during cornering with active camber control on the one hand, whilst ensuring that the car also cut a good figure with the wheels in the normal position on the other.

Taking these criteria as the starting point, a multinational competition was launched about two years ago, inviting young designers from the Mercedes studios in Germany, Japan and the USA to come up with ideas. A flood of exciting suggestions came in, ranging from utopian supercars to comical fun-cruisers and from four-seater cabriolets to pure driving machines with one-man cockpits.

This particular stage of development became known as the 'emotional phase' and proved vital in determining the scope of the F 400 Carving project's design potential and in properly channeling the design process. Indeed it was an absolute necessity since there can be no doubt that, besides requiring technical know-how, designing such a vehicle is all about emotions: a passion for automobiles, a fascination with technology and an enthusiasm for dynamic and enthralling motoring.

And what vehicle concept could better and more aptly symbolize these aspects than an open-top sports car? A completely open-top sports car - a speedster with an elongated, extremely flat and low-slung engine hood, a short tail end, an interior tailor-made for two. Plus a whole host of stylish features that immediately stir the emotions and reinforce the car's message: the wide, low-slung air intake in the front section, the sharp rake of the windshield, the lateral exhaust pipes and the distinctive roll-over bar behind the seats.

Exterior: the language of dynamics

Whichever way one looks at it, from whatever angle, the speedster's body is like that of a perfectly proportioned and superbly conditioned athlete. The profile is structured by wing-like sections that powerfully span the wheels, harmoniously drawing them into the overall body concept, yet without restricting their freedom of movement. Smaller wing sections fore and aft of the wheels reinforce this effect, making the wheels the dominant focus of attention when the car is viewed from the side.

The design team also adeptly used the distinctive wing sections to give the F 400 Carving a characteristic face, making the headlamps an integral part of the wings and using the light covers to form two 'eyes', decisively enhancing the sports car's enticing allure. This stylistic detail is possible thanks to lighting systems incorporating state-of-the-art fiber-optic technology, since conventional headlamps are simply too large to be incorporated in the limited space available in the wing sections.

And, of course, the two-seater's face would not be complete without the three-pointed star, centrally positioned in time-honored Mercedes sports car tradition. It forms the focal point of a further important design feature that stretches centrally across the engine hood, evoking images of the unmistakable arrow-shaped nose of the McLaren-Mercedes team's Silver Arrows. This particular detail is well on the way to becoming a classic Mercedes-Benz sports feature, having already graced the Vision SLR and Vision SLA sports car studies.

Arguably the most striking feature of all, because they are so steeped in tradition, the gullwing doors have come to symbolize the Mercedes-Benz brand. It is now exactly 50 years since the first Mercedes-Benz Gullwing created a sensation, marking the beginning of the SL legend. The F 400 designers took this feature and reinterpreted it in the spirit of contemporary design and technology, proving that the idea is just as stylish and exhilarating now as it was all those years ago. The research car's gullwing doors are not attached to the roof as they were on the original 300 SL. Instead, they swing upward 60 degrees thanks to special joints, supported by gas springs.

The muscular contour of the door leads into a sweeping, powerfully shaped profile which forms a prominent line stretching back as far as the speedster's tail end, where it acts as a fender for the rear wheels. The tail part of this section houses the rear lights, in the same way as its counterpart at the front incorporates the headlamps. The slender prism lenses enable the indicators, tail lights and brake lamps to effortlessly blend in with the overall design concept and, furthermore, cast an extremely impressive light on things.

Interior: high-tech in stylish packaging

A look inside the cockpit reveals another major design theme of the F 400 Carving: technology in its purest form. Technology that focuses on the essentials, on what motoring was originally all about and, therefore, on everything absolutely central to this idea. Nothing more, nothing less.

Admittedly, this initially smacks of purism, a totally stripped-down driving machine. But a closer look quickly reveals all: the perfect finish, the very best materials and a passion for detail. The designers at the Mercedes studios – in Como, northern Italy and Sindelfingen, southern Germany – devoted themselves to the task in hand, giving the interior a characteristic appearance that draws on classic aspects of bodystyling and design. Nowhere is this more apparent than in the 'wing' theme, the instrument panel being a perfect case in point: there is no firm visual link between the panel and the center tunnel. It seems to be 'floating' in space like some majestic wing and thus appears extremely light and almost delicate.

The idea of technology in its purest form is most clearly exemplified by the transmission tunnel, which has the shape, color and texture of a cast-aluminum transmission bell. As such it echoes the racing car cockpits of the twenties and thirties, an era when drivers had to make do with bare metal and little else. The simple sliding controls for the blower and the heater, the metallic lever for the SEQUENTRONIC transmission and the oval ventilation outlet above the transmission tunnel all reinforce these images of bygone days, yet behind each of these classic styling features lies state-of-the-art technology.

Passengers in the F 400 Carving are awaited by carbon seats in which they immediately feel at one with this evocative car and its technology: man and machine in absolutely perfect harmony. The seats provide superlative lateral support and can be individually adjusted, despite their one-piece design. The multi-layered fiber texture means it is possible to vary the backrest inclination without the need for joints or hinges - a small lever mechanism is all that is required. Together with spring and damper systems beneath the seat, the multi-piece upholstery ensures effective vibrational damping for good seating comfort.

Materials: all-weather performance

Choosing the interior cover fabrics for the F 400 Carving presented the designers with a particularly stiff challenge: the two-seater is a pure open-top, and so it was essential that the interior be quite literally windproof and weatherproof. Starting out with breathing yet hardwearing sportswear fabrics, the experts developed an exclusive range of cover materials for the research vehicle. Thanks to a special plastic coating, the materials are water-repellent and thus extremely suitable for this project. Furthermore, the upholstered sections of the seat are designed to be easily removable, so that the owner can leave them in the garage if they need to dry.

In conclusion, the F 400 Carving is an 'active experience' car that masters extreme situations supremely and safely. This is highlighted not only by the new chassis technology, but also by stylish interior features and by the two-seater's overall styling concept. Technology and design are uniquely and inextricably linked. New functions are not just supremely fulfilled, they are also made an integral part of the overall design and the emotive concept.Source - DaimlerChrysler

The Technology of the F 400 Carving• Mobile research laboratory with leading-edge technology

• Computers control the wheel camber angle in accordance with the road situation

• Up to 30 percent better lateral stability when cornering

• Tires with asymmetrical tread pattern and two friction zones

• New drive-by-wire system for steering and braking

• Hydropneumatic active suspension and damping system

• Carbon fiber body, ceramic composite brakes

• New headlamp system with fiber-optic technology


The latest research car gives us an insight into the future: the F 400 Carving follows in the tracks of other vehicle studies such as the F 200 Imagination and F 300 Life-Jet, which showcased new steering and chassis concepts in 1996 and 1997 respectively: 'drive-by-wire' and 'active roll control' were just two of the concepts central to these automotive research projects. The research engineers and scientists at DaimlerChrysler have perfected these ideas in the F 400 Carving and are proud to unveil an entirely new system which further enhances active safety and dynamic handling and gives an even more exhilarating driving experience.
20-degree wheel camber for safe and reliable cornering

The 'Carving' epithet already hints at the capabilities of the chassis technology in this research vehicle. Each time the car enters a corner or bend, two of its wheels tilt inwards, riding on a tire tread that has been specially optimized for cornering and has a high friction coefficient for optimum directional stability and road adhesion. The dynamics are reminiscent of the movements performed by alpine skiers using carving skis.

The computer-controlled system in the F 400 Carving varies the camber angle on the outer wheels by between 0 and 20 degrees when the car is cornering. The inner wheels and the vehicle body remain in their normal positions.

'Active camber control' is the culmination of a research project spanning several years. It all began with computer simulations and bench tests. But now the time has come for research out on the road.

The F 400 Carving is something of a mobile research laboratory for the Stuttgart-based automotive engineers. They aim to use the open-top two-seater to further research the potential of novel chassis systems and to open up new avenues in chassis technology for the passenger cars of the future. Initial test drives and measurements have delivered extremely encouraging results.

Compared to a modern car chassis, the active camber control in the F 400 Carving enables up to 30 percent more lateral stability and 15 percent more longitudinal forces. The numbers back up these claims: whilst the maximum lateral force on the wheel is usually about 6200 Newtons when the camber is zero degrees, this figure rises to 6900 Newtons when there is a negative camber of 10 degrees and as high as 7800 Newtons when the negative camber is 20 degrees.

Thanks to the high level of lateral stability on the outer wheels during cornering, lateral acceleration in the F 400 Carving is up to 28 percent higher than in sports cars that rely on conventional chassis technology. When the outer wheels of the F 400 Carving are tilted inwards by 20 degrees during cornering, the two-seater achieves a maximum lateral acceleration of 1.28 g.

This impressive figure is not just an indication of high cornering dynamics and sporting agility, it also signals a substantial improvement in active safety, particularly in emergency situations such as cornering at (excessive) speed or sudden obstacle-avoidance maneuvers. The research car remains more directionally stable than a car equipped with conventional chassis technology. What's more, it does so for longer and at a higher speed.

Tires: the concept of asymmetry

The tires are a major contributing factor to these results: active camber control enables a totally new concept that, for the first time and without compromise, combines the benefits of a passenger car tire with those of a motorcycle tire. Asymmetry is the principle behind this new tire technology, jointly developed by engineers from DaimlerChrysler and Pirelli: the tread pattern, tread blend and contour are all asymmetrical.

The most remarkable feature on the inside of the tire is the rounded-off tread which ensures superlative handling when cornering. The outer shoulder of the tire has a tried-and-tested car tread pattern, offering excellent straight-line stability and low road noise. For the first time, the experts have succeeded in harnessing the benefits of an established physical theory, according to which, at large camber angles, a tire with a curved tread can transmit greater lateral forces than conventional tires. The asymmetrical tread is made possible by the fact that the insides of the tires only come into contact with the road when the active camber control tilts the outer wheels inwards during cornering. This leaves the engineers one clear objective to focus on when harmonizing and optimizing the inner shoulders of the tires: superlative cornering safety.

Rubber blend: tire tread with different friction zones

The rubber blend used for the F 400 tires plays an equally important role, since the softer inner-tread zones enable even greater transmission of the forces – i.e. even better road adhesion – when cornering. These 'high-friction compounds' are not usually suitable for car tires as the soft rubber blend is more susceptible to wear than the conventional rubber compounds used. Therefore the new tire would not normally achieve the mileage of which today's tires are capable.

The active camber control in the F 400 Carving makes up for this short-coming: thanks to this innovative technology, the softer insides of the tires only come into contact with the tarmac when the car is cornering and so do not wear as quickly. In contrast, the rubber compound the experts developed for the outside of the tire is much harder, having been optimized with regard to longevity, straight-line stability and road roar.

In other words, thanks to its asymmetrical contour and special rubber blend, the newly developed tire provides the answer to a previously unresolved conflict of aims: maximum cornering safety and superlative driving dynamics on the one hand; high mileage and superb straight-line stability on the other. For the first time, therefore, two different concepts come to fruition in a single tire, thanks to active camber control.

Tire size: two diameters on one rim

Tires need a sufficiently large contact patch in order to provide a high level of lateral stability when cornering, however. And this presents a problem: the greater the wheel camber, the smaller is the active contact patch, at least as far as standard configurations are concerned. Recognizing this one disadvantage of the chassis technology used in the F 400 Carving, the DaimlerChrysler engineers developed a new type of wheel with two different diameters: 17 inches on the inside – the part of the wheel that is in contact with the road when cornering – and 19 inches on the outside. On the one hand, this ensures that the research car only runs on the non-curved section of the tire when driving straight ahead whilst, on the other hand, the smaller inner diameter provides the largest possible contact patch when the car is cornering.

In technically terms, the tire size is 255/35 R 19 tires on the outer shoul-der and 255/45 R 17 on the inner side.

Highly-promising research

Active computer-controlled camber adjustment and asymmetrical tires have brought the DaimlerChrysler engineers a major step closer to achieving one of their primary objectives: enhancing already exemplary levels of active safety and driving dynamics for the benefit of future models. But this is just the beginning of what promises to be an extremely fruitful research project: alongside greater lateral acceleration and exemplary cornering stability, this innovative technology provides a whole host of other on-road benefits:

If there is a risk of skidding, due to understeer or oversteer, the system briefly tilts one or more of the wheels by a precisely calculated amount, thus boosting the lateral forces and stabilizing the car. This means active camber control has the potential to enhance the effect of ESP®. Coupled with electronically controlled steering, which allows automatic steering correction, this can greatly reduce the risk of skidding.

In the event of emergency braking, all four wheels on the research car tilt at lightning speed, leaving only the insides of the tires – with friction-optimized rubber-compound tread – in contact with the road. This reduces the stopping distance from 100 km/h by a good five meters.

If there is a risk of aquaplaning, the system is capable of optimizing the tire contact patch by an appropriate amount. A wheel camber of just five degrees is enough to achieve the desired effect: a substantial reduction in the risk of aquaplaning. A new breed of sensor system, currently under development at DaimlerChrysler, detects the water layer on the road surface and sends the measured values to the ECU at the heart of the active camber control, enabling the system to automatically adjust the tilt of the wheels to suit the road conditions.

Asymmetrical tires would also prove beneficial in winter as the special rubber blend and tread pattern combine to provide extremely high traction as well as short stopping distances and superlative directional stability. To ensure safe driving on snow or ice, the driver can tilt the wheels at the push of a button, thus enabling the car to run solely on the insides of the tires, for better road adhesion.
Tilting hub carriers with hydraulic cylinders

Active computer-controlled camber adjustment is possible thanks to two-piece hub carriers and a powerful hydraulic system. Each hub carrier consists of one tilting section and one rigid section: the wheel locating compo-nents of a double-wishbone suspension system are attached to the rigid inside sections whilst the wheel bearings and the brake caliper linkages are located on the tilting outside sections. During cornering, piston rods in dual hydraulic cylinders press against the tilting hub-carrier sections on the outer wheels, causing them to tilt outwards at the bottom. In this way, the wheel camber can be varied between 0 and 20 degrees, depending on the road situation.

The driven rear axle on the F 400 Carving is designed in much the same way as the front axle, the variable-length axle shafts being the only major difference.

At the heart of the hydraulic system is an axial piston pump with a working pressure of up to 200 bar. Servo valves on the wheels' dual cylinders regulate the oil flow to control the degree of cylinder retraction and extension. If the driver adopts a dynamic driving style, rapid cylinder movement is required and in this case the pump receives assistance from a hydraulic pressure reservoir. A limp-home function is also provided: special shut-off valves interrupt the oil flow to the hydraulic cylinders and use the pressure available in the system to set the wheel camber angle to zero degrees.

Steer-by-wire and brake-by-wire

Active camber control, as featured in the F 400 Carving, represents a major step forward in chassis development for future car models. Even in its own right. But the Stuttgart-based engineers are taking things a step further, marrying this technology to a whole host of other, equally pioneering systems. The key to it all is drive-by-wire. The F 400 dispenses with mechanical connecting components such as the steering column, with all the shafts and joints that go with it, and the linkage between brake pedal and brake booster. In their place are wires which transmit the driver's steering or braking inputs by purely electronic means.

Steering: The electronic steering wheel is equipped with two inductive angle sensors that pick up each movement of the steering wheel, convert the measured angle into an electrical pulse and transmit the signal to the research car's microcomputers via data line. The computers evaluate these and other current sensor signals, using the data to specify setpoints for the front axle steering angle. In critical situations, the drive-by-wire system can also override the driver's steering inputs, to keep the car safely on an even keel. Two electric motors, which are directly connected to the rack-and-pinion steering, move the wheels of the F 400 Carving. This is why the automotive researchers refer to an 'electric rack' – a new feature which they developed together with the steering experts from Mercedes-Benz Lenkungen GmbH. Each electric motor generates half of the steering torque. In the event of a malfunction, one of the motors alone can assume total responsibility for the steering functions. This is therefore a redundant system, designed to provide maximum functional reliability. Even the research car's power supply is based on a dual-system concept: besides a standard (12-volt) on-board power supply, the F 400 Carving also has two 42-volt systems which are primarily used for the electronic steering.

Brakes: Brake-by-wire is already very much a reality at Mercedes-Benz. The Sensotronic Brake Control (SBC) high-pressure brake works on the following principle. When the brake pedal is depressed, an electrical signal is produced which is forwarded to a microcomputer. A sophisticated sensor system ensures that the microcomputer receives a continuous feed of data about the car's driving dynamics. The electronic system can therefore calculate and modulate the brake pressure for each wheel, according to the situation in hand. The end result is significantly enhanced braking safety when cornering.
Alongside Sensotronic Brake Control, the braking system in the F 400 Carving contains a further technical highlight that really sets it apart: the brake discs (330 millimeters in diameter) are made of carbon-fiber-reinforced ceramic, a high-tech material that is capable of withstanding extreme temperatures of between 1400 and 1600 degrees Celsius. It is also around a third lighter than cast iron.

Suspension and damping: next-generation ABC

The new active hydropneumatic (AHP) suspension system also sees the research engineers entering uncharted territory: the F 400 Carving is being used to test this possible alternative to future generations of the active suspension system which is currently fitted as standard in the Mercedes S-Class, CL-Class and SL-Class models.

In contrast to the today's Active Body Control (ABC) system, in which active control of the forces between the vehicle body and the wheel is performed by adjusting the spring action, the active hydropneumatic system influences both the suspension and the damping, adapting them at lightning speed to the situation in hand. The benefits of this system include an even higher level of active safety and enhanced ride comfort.

Engine and transmission: Mercedes technology with new detail solutions

Beneath the engine hood of the F 400 Carving is a state-of-the-art 3.2-liter V6 powerplant, a tried-and-tested unit installed in several other Mercedes model series. This six-cylinder engine differs from the standard production version in just one respect: the research engineers have equipped it with a dry sump lubrication system which ensures a constant supply of oil to the powerplant, even when lateral acceleration is extremely high.

The sequential gearbox in the research car is also a standard Mercedes-Benz production model. Only the SEQUENTRONIC controls are different: in the F 400 Carving, the driver changes gear in racing-car style – with selector buttons on the steering wheel.

Xenon light from fiber optics

Equally new is the headlamp system of the F 400 Carving. For the first time, DaimlerChrysler is using state-of-the-art fiber-optic technology to transmit the light produced by the xenon lamps. These optical-fiber bundles, made up of thousands of individual glass-fiber strands, enable physical separation of the light source and the headlamps - an advantage that primarily benefits the sports car's front-end design, since the headlamps only take up a very small amount of space. This therefore allows an extremely flat and low-slung front.

The light for main and dipped beam is generated in two cylindrical casings beneath the engine hood. Each contains a xenon lamp, and the light given off by these lamps is concentrated by elliptic reflectors. The reflector focal points reflect the light into the fiber-optic lines which, in turn, ensure loss-free transmission of the light to the headlamps. Special lens systems in the headlamps diffuse the light to illuminate the road. In addition, the F 400 Carving has two side-mounted lights for cornering. These fixed-position halogen lamps come on when a certain steering angle is reached. They can also be activated by a button, for use as fog lamps.

A space-saving design is also the hallmark of the indicators: powerful LEDs generate the light which is then dispersed by means of prism lenses.

Vehicle body: lightweight carbon fiber

The open-top two-seater's body is made from carbon-fiber-reinforced plastic (CFRP). Already tried and tested in the world of Formula One motor racing, its chief properties are minimum weight and maximum strength. It weighs in at about 60 percent less than steel, making the body of the research car 100 kilograms lighter. The DaimlerChrysler engineers use an intelligent three-material mix for the F 400 Carving chassis: steel, aluminum and carbon fiber (CFRP).Source - Mercedes-Benz

Year : 2002
Make : Mercedes-Benz
Model : F400 Carving Concept
Engine Location : Front
Drive Type : Rear Wheel
Body / Chassis : Carbon Fiber Body, Tubular SpaceFrame
Combined MPG : 0.00
0-60 mph : 6.9 seconds.
Top Speed : 241 km/h | 149.8 mph
Engine Configuration : V
Cylinders : 6
Aspiration/Induction : Supercharged
Displacement : 3.20 L | 195.3 cu in. | 3201 cc.
Valvetrain : OHC
Horsepower : 350.00 BHP (257.6 KW) @ 6100.00 RPM
Torque : 330.00 Ft-Lbs (447.5 NM) @ 3000.00 RPM
HP / Liter : 109.4 BHP / Liter
Transmission : Sequential

Tags: Concept Cars Car Tires Carbon-fiber DaimlerChrysler Sports Car Carving

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PLEASE BE CAREFUL WHENEVER YOU'RE USING A PC AT A PUBLIC PLACE (Like INTERNET CAFES..ETC).

CHECK THE BACK OF THE PC AND SEE IF THE BELOW DEVICE IS THERE..IF SO..DO NOT USE IT!!!!

New storing device fits at the end of the keyboard cable connecting to the PC specialized to save all typed keys in it…
Mostly could be used in net cafes, exhibitions, hotels and airports therefore be careful especially the people who use the internet in these places to enter their bank accounts online or any other important sites.
After you enter the bank account and leave the PC it will be easy to open your account again as all what you have typed has been saved in the Black device.  
Therefore, you should check the PC for any suspicious piece behind it before using the net in public places for important sites.
Please send it to all who you know to educate them against this fraud.

Tags: CAREFUL

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We all carry our mobile phones with names & numbers stored in its memory. But nobody, other than ourselves, knows which of these numbers belong to our closest family or friends.

If we were to be involved in an accident or were taken ill, the people attending on us would have our mobile phone but wouldn't know who to call. Yes, there are hundreds of numbers stored ; but which one is the contact person in case of an emergency? Hence this "ICE" (In Case of Emergency) Campaign.

The concept of "ICE" is catching on quickly. It is a method of contact during emergency situations. As cell phones are carried by the majority of the population, all you need to do is store the number of a contact person or persons who should be contacted during emergency under the name "ICE" ( In Case Of Emergency).

The idea was thought up by a paramedic who found that when he went to the scenes of accidents, there were always mobile phones with patients, but they didn't know which number to call. He therefore thought that it would be a good idea if there was a nationally recognized name for this purpose. In an emergency situation, Emergency Service personnel and hospital Staff would be able to quickly contact the right person by simply dialing the number you have stored as "ICE."

For more than one contact name, simply enter ICE 1, ICE 2 and ICE 3 etc. A great idea that will make a difference!

Let's spread the concept of ICE by storing an ICE number in our mobile phones today!!! !

Please forward this. It won't take too many "forwards" before everybody will know about this. It really could save your life, or put a loved one's mind at rest .

ICE will speak for you when you are not able to do so.

Tags: ICE In Case Of Interagency

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