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Putting the two equations together and solving for I2 in terms of the source voltage we obtain I2 = CR 2 1 B V0 0 R B CR B (R A +R B ) + L 1 + J ( 2 LC(R A + R B ) R B )
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low-alloy steel can be used without the added cost of heat treatment and additional processing. The low-alloy material in the non heat-treated condition can be used for bending stresses in the 20,000 lb/in2 range and surface durability hertzian stresses of approximately 85,000 lb/in2. As the operating conditions become more severe, it becomes necessary to harden the cam for improved strength and to case harden the cam surface by case carburizing or case nitriding for longer pitting fatigue life, better scoring resistance, and better wear resistance. Several medium-alloy steels can be hardened to give good load-carrying capacity with bending stresses of 50,000 to 60,000 lb/in2 and contact stresses of 160,000 to 180,000 lb/in2. The higher alloy steels are much stronger and must be used in heavy-duty applications. AISI 9310, AISI 8620, and Nitralloy N are good materials for these applications and can operate with bending stresses of 70,000 lb/in2 and maximum contact (hertzian) stresses of 200,000 lb/in2. These high-alloy steels should be case carburized (AISI 8620 and 9310) or case nitrided (Nitralloy) for a very hard, wear-resistant surface. Cams that are case carburized will usually require grinding after the hardening operation because of distortion during the heat-treating process. The nitrided materials offer the advantage of much less distortion during nitriding and therefore can be used in the as-nitrided condition without additional nishing. This is very helpful for large cams with small cross sections where distortion can be a problem. Since case depth for nitriding is limited to approximately 0.020 in, case crushing can occur if the load is too high. Selection of the nitriding process requires careful consideration of cost because of the long time involved in the case formation. A very hard case having a hardness about Rockwell C 70 ensures excellent wear resistance. Nitrided parts have good corrosion resistance and improved fatigue properties. Nitriding follows the nish-machining and grinding operations, and many parts can be nitrided without distortion. AISI 8620 steel (die steel) is an excellent choice for an accurate cam under heavy loads and endurance at a reasonable cost. With 8620 steel, an inherent core hardness of approximately 36 Rockwell C and a surface hardness of 60-62 Rockwell C or higher is achieved. It is an oil-quench material that has less heat-treating distortion than a water quench and less danger of cracking. It is sometimes carburized. In general, the case depth of case-hardened materials varies between 0.030 in and 0.060 in to be slightly below the point of maximum shear stress. AISI 4140, 4150, 4320 (usually carburized), 4340, and 4615 steels have been chosen as cam materials. AISI 4140 is particularly selected as it can be (a) ame hardened, (b) through hardened Rockwell C 52-54, or (c) nitrided. The nitriding process produces a thin, very hard surface Rockwell C 70 about a few ten thousandths of an inch thick. This very hard thin case ensures excellent wear resistance. Below that surface is a case depth 0.020 to 0.035 in with a hardness Rockwell C 52 to 54. AISI 4140 is plate or bar stock and provides for good machinability and hardening properties. The low- and medium-alloy steels have a limited operating temperature above which they begin to lose their hardness and strength, usually around 300 F. Above this temperature, the material is tempered and surface pitting failures or scoring will occur. The generally accepted minimum hardness required at higher operating temperature is Rockwell C 58. In rare cases, Tungsten Carbide Stellite and AISI 52100 have been chosen as the cam material or as an insert to the cam at high points of undesirable wear. Also, although hardened tool steel is a satisfactory choice as a cam material, here the selection is either an oil-quench steel or air-hardened tool steel. The air-hardened steel is best, giving less distortion under heat treatment. Stainless steel 360 and 440 C have been utilized for medical purposes. Nitriding of stainless steels is sometimes employed.
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The following FHWA and AASHTO publications serve as major resources for scour analysis and design: 1. HEC-18 Evaluating Scour at Bridges 2. HEC-20 Stream Stability at Highway Structures 3. HEC-23 Countermeasures 4. HEC-25 Tidal Scour will be Used 5. AASHTO LRFD Speci cations for Design of Bridges 6. AASHTO Model Drainage Manual 7. MD, NJ, PA, FL and other state codes 8. NCHRP 9. CIRIA (British code)
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their careers. Write about censorship, ratings systems, and violence in the media. If you have access to some web space (and most big Internet service providers now offer a little web space free along with their other account services), create a fan web site about some of your favorite games, or a review web site. Although the computer game industry is nowhere near as big as, say, the film industry, there s still plenty to say about it. If your work is really good, see if your local newspaper has anybody who routinely reviews video games. If they don t, they might be interested in publishing what you ve written. It can t hurt to ask. Although none of this is going to immediately get you a job in the industry, doing it shows that you re serious. Look at it this way: suppose you re a hiring manager, and you ve got two nearly identical r sum s from entry-level people. One person has been playing, thinking, and writing about games in his spare time, while the other has been hanging out at the mall. Which one are you going to ask in for an interview
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Most wireless system designs (Fig. 9.9) now rely heavily on the ever-increasing use of radio-frequency integrated circuits (RFICs). RFICs may contain the complete LNA/mixer stages, the entire IF stages, or even the total transceiver. However, a complete transceiver on a single RFIC chip is usually available only for low-data-rate or low-cost voice applications at least for the foreseeable future, and with the single exception of the upcoming one-chip solution for Bluetooth devices (for further information on this important wireless technology, please go to Nonetheless, higher integration levels are slowly becoming a reality as more and more companies attempt to make a complete wireless system on a chip. Depending on the frequencies and specifications required, adopting RFICs can significantly lower design and production costs, as well as the physical size, of the complete radio system. In fact, multiple RFICs have already replaced many discrete systems, as high levels of integration can allow one RFIC to replace dozens, if not hundreds, of components. This not only decreases the cost of designing the communications system in the first place, but also simplifies the actual construction of the systems themselves. RFICs are available for each part of a radio, with the level of the desired integration depending on the design flexibility required. The design of Fig. 9.9 demonstrates low levels of RFIC integration, but still allows for a far more rapid time to market than a completely discrete design. Most of the chips for this, and similar radio designs, are available from MAXIM, RFMD, MiniCircuits, National, Motorola, etc. Many designs must still rely on discrete, or at least individual MMIC, amplifiers and mixers when RFICs are not compatible with a particular design goal, while other wireless systems may have to employ an almost entirely discrete design for price/performance reasons. Indeed, the RFIC solution is compatible with a particular wireless design only if the chip already
When you edit images in an application like Photoshop Elements, you re making decisions based on what you see on your computer monitor. What you get when you actually print the image may be a different story. You can calibrate your monitor so that the colors you see on the screen closely match what you will get when you print the image. Adobe Photoshop Elements ships with a utility called Adobe Gamma, which leads you, step by step,
Below the chart is a panel labeled Select Time Period. This panel is shown in its entirety in Figure 5-29. This is where designers can enter the number of time periods to forecast (up to three). Designers can also choose to modify the selection of values used for input. By default this Trend Chart chose the eight quarters that were on the scorecard, but clicking on the link brings up the hierarchy where individual members can be checked or unchecked. Alternately, the developer could simply click on the radio button to enter a fixed number of trailing periods to use for the forecast. The advanced settings allow some fine tuning of the algorithm. To learn more about the algorithm, information is available on the time series algorithm in the SQL Server books online. After choosing to forecast three periods into the future, the chart updates to that shown in Figure 5-30. In this instance, the last three periods are forecast from the data mining algorithm, while previous values are the actual values. The forecasted values actually appear in red while the historical data is in blue. In Figure 5-30, the forecast seems to be just slightly below 10% for this particular Trend Chart.
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