Lab 04 PDF

b) the following data is given for the piston of a four-stroke diesel engine: Cylinder bore 300 min Force on piston due to maximum gas pressure = 424 KN Bearing pressure at small end of connecting rod = 15 MPa Length of piston pin in bush of small end = 0.45D Ratio of inner to outer diameter of piston pin = 0.6 Mean diameter of piston boss = 1.4 x outer diameter of piston pin Allowable bending stress for piston pin = 84 N/mm2 %3D Calculate i. Outer diameter and inner diameter of the piston pin ii. Mean diameter of the piston boss; iii. The maximum gas pressures iv. check the design for bending stresses.

10. A simply supported shaft between bearings camies a steady load of 10 kN at the centre. The length of shaft between bearings is 450 mm. Neglecting the effect of stress concentration, find the minimum diameter of shaft. Given that Endurance limit = 600 MPa; surface finish factor = 0.87; size factor = 0.85; and factor of safety = 1.6. [Ans. 35 mm]

i need clear ans and solve very very fast in 20 min and thank you | DYBALA? i need clear ans and solve very very fast in 20 min and thank you | DYBALA ?*! pressurized vessel (closed ends) with 500 bar, its dimensions are L = 1m, d = 25 Cm, D = 32 Cm, oy = 600 MPa. Find maximum values for Oh, o, and as then find safety factor. light shocks find its

Provide max and min values too. Please help. Written on paper not typed on computer or keyboard please. Need help on all questions. Please include all units, steps to the problem and information such as its direction or if it is in compression or tension. Thx.

please answer problems 7 ,9  and 11 in full detail

Hand written plz

Explain what is represented by the datum feature symbol attached to the feature control frame containing the form geometric tolerance.

a) Three blocks A, B, and C and a grooved block D have dimensions a, b, c, and d as follows:       a= 1.500 ± 0.001 in        b= 2.000 ± 0.003 in         c= 3.000 ±  0.004 in        d= 6.520 ± 0.010 in Determine the mean gap ￣w and its tolerance. Determine the mean size of d that will assure that w ≥ 0.010 in. b) A 1-in-diameter rod, 3 ft long, of unknown material is found in a machine shop. A variety of inexpensive nondestructive tests are readily available to help determine the material, as described below with results in bracket: i. Visual inspection. (Dark gray, rough surface finish, moderate scale) ii. Check if it is attracted to a magnet. (Yes) iii. Measure Weight. (7.95lbf) iv. Inexpensive bending deflection test: Clamp one end in a vise, leaving 24 in cantilevered. (5/16in) v. Brinell hardness test. (HB = 200)

Question 2 A clearance fit between a Shaft and a Pulley is given as 15 H8-f7 (units in mm). Please refer to the Limits and Fits document from myUNISA additional resources; for convenience an excerpt o this table is provided on Page 5. Do the following: 2.1 State the nominal shaft size Using the ISO Limits/Fits table, determine the upper and lower tolerance for the shaft. (Hint, consider the H8 designation and make sure units are correct) 2.2 Using the ISO Limits/Fits table, determine the upper and lower tolerance for the hole (bearing). (Hint, consider the f7 designation and make sure units are correct) 2.3

c) A hydraulic load tell is fequired to measure a maximum load of500KN. If the elfective diameter of the diaphragm is200 mm, calculate the maximum pressure to be indicated on the Bourdon gauge. Assuming the seale is linear and operates aver an A. C. of 270 volis Calculate the sensitivity of the pressure guage IS MURKS.      Please type answer no write by hend.

plz do within 1 hour need step wise step and correctly

mechanical design and drawing

I need help with finding the E symbol thingy all the way to the total part.

Draw FBD and determine Stress and Safety Factor of Bicycle Axle (Thru Axel)   Specification Weight of cyclist = 120 kg. Materials: Aluminum alloy (AL 6061-T6) Dimension: Length = 122 mm, Diameter = 12 mm, Thread pitch = 1.75 mm, Thread Length = 16 mm.

I want full calcuations shows all the steps !! with analysis

Q5// Draw Free Body Diagram for all bodies in figures below 13 Sm 10m Rob 2m

Please answer asap REQUIRED: • Discuss Universal Testing Machine • Write a conclusion regarding Universal Testing Machine Note: Conclusion may include the importance in of Universal Testing Machine.

Calculation of Limits using ANSI B4.1 Standard Tables, when one of the design Features Exists. When calculating the limit tolerances for features that mate with purchased parts, the purchased part size must be known. This may be obtained be requesting a drawing from a vendor or, a caliper or micrometer can be used to obtain an accurate size. A shaft diameter of 1.2500" is to be pressed into a part using a FN3 interference (force) fit. Limits of size for the shaft diameter are 1.2500" and 1.2495". Determine the Limits of the hole diameter. Show all work.

Please help. Written on paper not typed on computer or keyboard please. Need help on all questions. Please include all units, steps to the problem and information such as its direction or if it is in compression or tension. Thx.

Define the Rockwell Scale

Q.3 In a bushmandrel system, a bush was turned on a mandrel. The mandrel diameter in millimeter is 400.00 -0.05 and bore diameter of bush is 40+0.06 The -0.010 maximum eccentricity of the bush in mm will be A 0.025 0.045 C 0.055 D 0.065

Complete Solutions

Plz solve within 30min I vill give definitely upvote and vill give positive feedback thank you

Experiment No.2 Cylinder Dead weight calibrated precision tube with check valve 20 precision piston Bourdon type manometer <-41 FME TO piston-cylinder connection adjustable legs Hello sir, I had an oral examination in this device and Dr. Sawal asked me about the benefit of one of the pieces and the answer ((reduction of friction)). It is possible to mention cutting a useful device. 1

Question 01 Calculate the number of convolutions (n) to get a deflection of 310 degrees in a bellow: P.R2 8 = 2.n.Ae. E.t3 8 = deflection of the bellows n=? (mumber of convolutions) Ae = u and r= 2 m P = 50 Pa R= 0.6 m E = 2 Pa (Young's modulus) t=2 m (wall thickness)