Buy Race Car Vehicle Dynamics by Milliken, William F., Milliken, Douglas L. online on desertcart.ae at best prices. ✓ Fast and free shipping ✓ free returns ✓ cash on delivery available on eligible purchase. Review: When you pay for a new book but it's in worse condition then a used one. Review: This is the mother of all books about race cars. If you were missing deep theoretical background on tuning your sports car or street car, this volume is for you. It is impossible to describe in detail what this textbook is about, in a single review. What I liked most is the chapter on dampers (shock absorbers). It gave me the answers to lots of questions that I had before reading this published work, for example how to choose "ride/handling compromise" when adjusting damping ratio? Why stiffer dampers are more comfortable on large-amplitude bumps, while softer dampers provide smoother ride on small-amplitude bumps? "In an automobile, a suspension is used to reduce the discomfort induced by unevenness in the highway. As measure of discomfort is the vertical acceleration that the passenger is subjected while sitting in the vehicle". The book demonstrates the model where the passenger is linked to the road via three springs in a sequence: tire, coil and the seat, and one damper (shock absorber). There is a graph showing passenger vertical acceleration depending on the amplitude (frequency) of road irregularities, for distinct shock absorbers with various damping ratios. For a stiff shock absorber this diagram shows relatively flat curve, where the vertical acceleration is almost independent of frequency of bumps. For the soft shock absorber, there is a very high peak (several times higher comparing to a stiff damper) of vertical acceleration for the low-frequency bumps, and this acceleration curve quickly decays as the frequency increases. There is another graph, "transient load transfer analysis", which shows that with soft dampers, the suspension load in a turn fluctuates. This is another answer to the question why stiffer dampers (to a certain extent) provide better handling. The order of the chapters is somewhat sporadic. The books is a mixture of sections of engineering information (formulas), historical background, sketches (e.g. torque arm rear axle suspension), recipes (KONI's published instructions for damper adjustment), and sample data (e.g. Goodyear tire data). Nevertheless, the work is so deep that in a couple of years after it's publication, it had been started being used as a university textbook. Based on comments from faculty, SAE have requested the authors to prepare a supplementary book of problems, to help the universities to examine the students. I also recommend "Theory of Ground Vehicles", by J. Y. Wong, in addition to this book.
| Best Sellers Rank | #147,305 in Books ( See Top 100 in Books ) #138 in Motor Sports #196 in Aerospace Engineering #719 in Astronomy & Space Science |
| Customer reviews | 4.7 4.7 out of 5 stars (143) |
| Dimensions | 17.78 x 4.78 x 25.4 cm |
| Edition | First Edition |
| ISBN-10 | 1560915269 |
| ISBN-13 | 978-1560915263 |
| Item weight | 2.04 Kilograms |
| Language | English |
| Print length | 918 pages |
| Publication date | 1 December 1994 |
| Publisher | SAE International |
J**S
When you pay for a new book but it's in worse condition then a used one.
M**N
This is the mother of all books about race cars. If you were missing deep theoretical background on tuning your sports car or street car, this volume is for you. It is impossible to describe in detail what this textbook is about, in a single review. What I liked most is the chapter on dampers (shock absorbers). It gave me the answers to lots of questions that I had before reading this published work, for example how to choose "ride/handling compromise" when adjusting damping ratio? Why stiffer dampers are more comfortable on large-amplitude bumps, while softer dampers provide smoother ride on small-amplitude bumps? "In an automobile, a suspension is used to reduce the discomfort induced by unevenness in the highway. As measure of discomfort is the vertical acceleration that the passenger is subjected while sitting in the vehicle". The book demonstrates the model where the passenger is linked to the road via three springs in a sequence: tire, coil and the seat, and one damper (shock absorber). There is a graph showing passenger vertical acceleration depending on the amplitude (frequency) of road irregularities, for distinct shock absorbers with various damping ratios. For a stiff shock absorber this diagram shows relatively flat curve, where the vertical acceleration is almost independent of frequency of bumps. For the soft shock absorber, there is a very high peak (several times higher comparing to a stiff damper) of vertical acceleration for the low-frequency bumps, and this acceleration curve quickly decays as the frequency increases. There is another graph, "transient load transfer analysis", which shows that with soft dampers, the suspension load in a turn fluctuates. This is another answer to the question why stiffer dampers (to a certain extent) provide better handling. The order of the chapters is somewhat sporadic. The books is a mixture of sections of engineering information (formulas), historical background, sketches (e.g. torque arm rear axle suspension), recipes (KONI's published instructions for damper adjustment), and sample data (e.g. Goodyear tire data). Nevertheless, the work is so deep that in a couple of years after it's publication, it had been started being used as a university textbook. Based on comments from faculty, SAE have requested the authors to prepare a supplementary book of problems, to help the universities to examine the students. I also recommend "Theory of Ground Vehicles", by J. Y. Wong, in addition to this book.
A**S
completely satisfied with my purchase. Delivery was on time. Nothing to complain about
A**N
Love this book, it was everything I expected and more (in a good way).
F**Z
libro di riferimento
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