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iPod Nano 7th Gen - Disassemble Guide • TTT-9007 Small Phillips Screwdriver • TTT-9010 Plastic Opening Tools • TTT-9013 Spudger • Heat Gun / Blow Dryer The repair of the iPod Nano 7th Gen., can be both simple and inexpensive if you follow the steps of this disassemble guide. To assist you in completing the repair, the steps we have provided will help you quickly, and safely, replace a broken display, along with other internal components that may have become damaged. You can find a full archive of fixez.com disassemble guides and videos, for numerous makes and models of phones and tablets, by visiting http://www.fixez.com. http://www.fixez.com/ Page 1 of 8 iPod Nano 7th Gen–Disassemble Guide Step 1 – Display Assembly • **Warning** We are showing the first two steps in reverse order. The Bluetooth antenna, adhered to the back of the iPod Nano’s bottom cover, is very easy to damage. • When you perform the next step, please be aware this antenna is there. Proceed with caution so that no damage is done to this piece.
http://www.jackkey.com | Taking your truck in for an oil change is important, but performing regularly scheduled maintenance will help ensure that your Ford F-150 is in top condition. Sticking to the recommended maintenance schedule and taking your truck to your Ford El Paso dealership at the 30, 60, 90, and 100k-mile intervals helps to maintain performance.
Troubleshoot common drive shaft problems. ○ Check ... Remove and replace a drive shaft assembly. ○ Replace ... Drive Shaft Vibration can be caused by. Learning Objectives Troubleshoot common drive shaft problems. Check universal joint wear. Measure drive shaft runout. Remove and replace a drive shaft assembly. Replace universal joints. Perform basic service operations on a transfer case. Cite and practice good safety procedures. Chapter 60 1. Because a Transfer Case is heavy, use a transmission jack when removing. 2. Before disassembling a Universal Joint, Joint scribe/mark each component. Transfer Case Removal Use a hoist and transmission jack Transfer Case Oil Check the oil condition and level first. Replace dirty or contaminated oil
HW93776-1 Cummins Engine Stand Adapter For Cummins engines: all NH, NTC, & NTE 855 Series in-line 6 cyl., 378 Series V6, 504, 555 & 903 Series V8, KT 1150 Series in-line 6 Cyl. L10 HW93776 • • • • Complete clearance during 360° rotation Long handle provides easy engine rotation with 95 to 1 gear Floor lock keeps stand from moving during repairs Universal adapter included for use with a wide variety of optional adapters HW93776-3 Mack Diesel Engine Stand Adapter HW93776-2 Detroit Engine Stand Adapter HW93776-4 International Diesel Engine Stand Adapter For Mack engines: 672, 673, 675 & 711. Series in-line 6 cyl. For Detroit engines: 53 Series in-line 6 Cyl., 6V & 8V also 71 series in-line 6 cyl., 6V, 8V & 12V also 92 series 6V & 8V also 8.2 liter V8. For International Harvester engines: DT-466 in-line 6 cyl. DV-550, MV-404, MV-446, V304, V435, V392, 4-152, 4-194, 4-196, 9.0 liter V8, 6.9L (Ford). HW93776-5 Caterpillar Engine Stand Adapter HW93776-6 Allison Transmission Adapter HW93776-7 Small Vehicle Adapter For Caterpillar engines: 1673, 1674, 1693, 3306 & 3406 in-line 6 cyl. also 1100 & 3208 V8 and 3408 V8. All Allison transmissions: AT 500, MT 600, MT 6 speed, VH, VS and V730 Small size vehicle and light truck engine 2,000 Lbs. capacity. Model Capacity HW93776 3 Ton 1-888-332-6419 Overall Dimensions Wheel Diameters Height Width Length Front Rear Rotational clearance from MTG. Head to Ground G.W. 45-3/4″ 46″ 52″ 8″ 5-3/4″ 37-1/2″ to 43-1/4″ 602 Lbs. www.heinwerner-automotive.com
4.00x4.50x1/4" steel caster mounts - 3/8" holes on 2.75x3.25 centers 2x2x.083 steel square tubing 2.000 Engine Stand, Main Frame 60.000 1" square tubing 7.750 4.000 30.000 30.000 truncate corner approx .5" .625 .500 Dia (2 pl) 7.200 4.563 .438 Dia * 8.250 7.625 1.688 .250 *Center hole is shown as corrected (original was 3/16 up and 3/16 left) Install CarQuest MOU 31-3097 motor mounts with studs towards center (78-79 Buick/Olds, 79 Chev, 75-76 Pontiac Transmission Mount) .875 See Mountbar.dc for main bar dims Mtl: 1.5 x 2.5 x .187 steel 1.500 Mount is to place crankshaft 10" above main frame 1.000 14.750 2.500 12.750 7.313 3.750 .438 Dia Small Block Ford Front Engine Mount Bar (mountbarSBFfront.dc) 2.000 4.750 .000, .000 2.875, -0.500 Matl: 1x1 tubing 3.375, -1.000 .500, -0.500 Generic Engine Mount Bar (mountbar.dc) .000, .000 28.500, -1.000 .438 Dia (typical) 2.875, -1.000 .500, -1.000 Matl: 2x2, .120 wall, square tubing 30.875, -1.000 CL = 15.687 31.375, -2.000 MountBarFordRear.dc Supports GM T-10, T5 and Tremec .500 R .000, .000 10.120, -1.000 1.880, -1.000 Matl: .375 al plate 1.750, -1.067 10.250, -1.067 6.000, -3.000 1.990, -1.530 9.910, -1.530 .500 Dia (9 pl) 1.120, -5.810 10.250, -5.810 1.000 .377 10.250, -7.377 1.750, -7.377 tap thru 3/8-16 (3 pl) .800 .500, -8.000 6.000, -8.000 2.440, -7.800 8.760, -7.800 11.500, -8.000 1.000 1.623 12.000, -9.000 .438 Dia Matl: 2x2x.125 angle 2.000 1.250 3.000 9.000 12.000 1.000 .438 Dia 10.813 14.563 16.813 20.563 Install CarQuest MOU 31-3097 motor mounts (78-79 Buick/Olds, 79 Chev, 75-76 Pontiac Transmission Mount) See Mountbar.dc for main bar dims Mount is to place crankshaft 10" above main frame .000, .000 1.000 2.000, -.500 .201 Dia (6 pl) 9.020, -1.860 1.625, -1.860 23.000, -.500 12.500, -.500 22.375, -1.750 12.000, -3.688 2.125, -2.235 .500 Dia 2.187, -2.297 Corners for .125 end mill 8.438, -5.438 23.250, -2.500 16.250, -2.500 16.250, -5.500 19.250, -2.500 21.500, -2.500 19.250, -5.500 8.500, -5.500 1.000 .156 Dia (4 pl) 9.020, -5.500 1.625, -5.500 21.500, -6.400 3.375 Dia .125 Dia (4 pl) 2.062 Dia (4 pl) 2.000, -7.375 .750 23.000, -7.375 12.500, -7.375 25.000, -7.750 MountBarDashPanel 23.250, -6.400 2x2x.083 steel square tubing. 4.00x4.50x1/4" steel caster mounts - 3/8" holes on 2.75x3.25 centers. 4.000. 7.750. 1" square tubing. Engine Stand, Main Frame ...
Smoothbore Hose End Fittings - PTFE Tail and Hydraulic Tail ... flexibility. Hose Braid: Braided from AISI grade 304 stainless steel wire, bright hard drawn to a... Self Cleaning PTFE - The Optimum Choice For Hose Linings PTFE, or Polytetrafluoroethylene, comprises long-chain Section from a PTFE Molecule, 16 Angstrom Units long. molecules of carbon atoms, each linked to two fluorine atoms. The fluorine atoms provide a helical spiral which surrounds the carbon chain and protects it. It is this structure which creates the unique properties for which PTFE is well-known. Excellent Chemical Resistance PTFE is renowned as the most chemically resistant material known. Only a very few, very unusual substances and conditions can affect it, like Fluorine gas at high temperature and pressure and Liquid, boiling sodium metal. PTFE lined hoses can therefore be used for a wider variety of chemicals than any other hose type, making it the ideal choice for very corrosive chemical applications and multiproduct applications.
Flexible pipe How Technip offers a broad range of flexible pipe systems with the most advanced integrated solutions for deepwater and ultra deepwater field developments Technip profile Technip is a world leader in project management, engineering and construction for the energy industry. With a workforce of 40,000 around the world, we constantly offer the best solutions and most innovative technologies to our clients to meet the world’s energy challenges. We operate in three main businesses: Subsea Offshore Onshore In subsea hydrocarbon development, Technip’s activities include the design, manufacture and installation of rigid and flexible subsea pipelines and umbilicals. Thanks to its portfolio of technologies and industrial and operational assets, Technip offers a unique vertically integrated model in the industry. In the Offshore business segment Technip performs engineering, procurement, construction, installation, commissioning and the refurbishment/upgrading of offshore facilities for the oil and gas industry. Technip covers the full range of onshore facilities for the oil and gas chain, petrochemicals and other energy industries (nuclear, renewables including biofuels and offshore wind). It holds many proprietary cuttingedge technologies and is the leader in the design and construction of LNG and gas treatment plants as well as ethylene, hydrogen and syngas units.
Department of Chemical Engineering, Indian Institute of Science, Bangalore 560 012, India (Received 17 June 1998 and in revised form 25 October 1999) The stability of ﬂuid ﬂow in a ﬂexible tube to non-axisymmetric perturbations is analysed in this paper. In the ﬁrst part of the paper, the equivalents of classical theorems of hydrodynamic stability are derived for inviscid ﬂow in a ﬂexible tube subjected to arbitrary non-axisymmetric disturbances. Perturbations of the form vi = ˜i exp [ik(x − ct) + inθ] are imposed on a steady axisymmetric mean ﬂow U(r) in v a ﬂexible tube, and the stability of mean ﬂow velocity proﬁles and bounds for the phase velocity of the unstable modes are determined for arbitrary values of azimuthal wavenumber n. Here r, θ and x are respectively the radial, azimuthal and axial coordinates, and k and c are the axial wavenumber and phase velocity of disturbances. The ﬂexible wall is represented by a standard constitutive relation which contains inertial, elastic and dissipative terms. The general results indicate that the ﬂuid ﬂow in a ﬂexible tube is stable in the inviscid limit if the quantity UdG/dr > 0, and could be unstable for UdG/dr < 0, where G ≡ rU /(n2 + k 2 r2 ). For the case of Hagen–Poiseuille ﬂow, the general result implies that the ﬂow is stable to axisymmetric disturbances (n = 0), but could be unstable to non-axisymmetric disturbances with any non-zero azimuthal wavenumber (n = 0). This is in marked contrast to plane parallel ﬂows where two-dimensional disturbances are always more unstable than three-dimensional ones (Squire theorem).
ATTICUS FINCH Post Office Box 8994 Los Angeles, CA 90026 213-999-9999 firstname.lastname@example.org EDUCATION YALE LAW SCHOOL, J.D., 2000 • Yale Law Journal • Director, Disability Clinic • Coker Teaching Fellow, Contracts I, Professor Reva Siegel • Research Assistant, Professor Jerry Mashaw HARVARD UNIVERSITY, A.B., 1995 • summa cum laude, English and American Literature/Philosophy • Phi Beta Kappa • Supervisor, University Lutheran Homeless Shelter EXPERIENCE ACLU FOUNDATION OF SOUTHERN CALIFORNIA, Los Angeles, CA, 1997 - present Staff Attorney (2002 - present); George Slaff First Amendment Fellow (2001 - 02) Litigate civil rights and civil liberties cases in the areas of free speech, race and gender equity, voting rights, disability rights, police practices, poverty and welfare, immigrants' rights, employment, and open government. Successfully challenged restrictions on political protests. Coauthored brief to United States Supreme Court. Argued open meeting act case before California Supreme Court. COMMON CAUSE, Washington, DC, 2004 - present Chair, Board of Directors, and National Governing Board Supervise activities of Common Cause at state and national levels, including advocacy on campaign finance reform, open government, ethics, public accountability, and civil rights issues. Chair state board meetings. JUDGE STEPHEN REINHARDT, NINTH CIRCUIT COURT OF APPEALS, Los Angeles, CA, 2000-2001 NAACP LEGAL DEFENSE & EDUCATIONAL FUND, Washington, DC, Summer 1999 Researched and wrote memoranda and briefs on educational equity, school desegregation, employment discrimination, and fair housing issues. GREATER BOSTON LEGAL SERVICES, Boston, MA, 1995-97 Represented people with mental and physical disabilities seeking Social Security benefits. Gathered evidence, wrote legal briefs, and represented clients at administrative hearings. BAR ADMISSIONS Admitted to state and federal courts in California and Massachusetts.
• Check for engine vacuum, make sure manifold is open and clear of carbon build up. • Use a vacuum gauge to check the vacuum at the booster, do not guess. • Check vacuum hoses for soft spots, deterioration or collapse (replace hose if in doubt.) • Check brake pedal for binding. • Check the condition of the foundation brakes, drums, linings, and brake shoes for binding. • Check for air in Hydraulic System. • Check for any line restrictions. PEDAL KICKBACK • Check for dirt or foreign matter in Hydraulic System. • Before replacing the booster, remove the master cylinder to clean any dirt out. Also; Clean out the rest of the Hydraulic System. BRAKE WILL NOT RELEASE • Be sure a brake booster with residual check valve is not used with master cylinder with check valve. • On remote mountd boosters, disconnect the line between the master cylinder and the brake booster. • If the brakes release, the trouble is in the master cylinder (possibly the brake pedal is binding.) • If brakes do not release, disconnect the line from the booster to the wheel cylinders. • If the brakes release, the problem will be in the booster. • If brakes still do not release, the problem is in foundation brakes. • If brakes will not release on firewall mounted brake booster, disconnect the hydraulic line to the wheels. • If brakes release, the problem is in the booster or master cylinder (be sure the brake pedal is not binding.) LOW BRAKE PEDAL • Make sure master cylinder reservoir is full. • Check for air in the hydraulic system. • Make sure there are no leaks in the wheel cylinders, lines or fittings. • Check the foundation brakes for proper adjustment, cracked or over-sized drums. SPECIAL NOTES: Common Causes of Booster Failure