4 TESTING MATERIALS Properties of materials Classify and explore mechanical and electrical properties of materials Explain the meaning of the term intensive property, with examples Appreciate the need for log scales for representation of properties
Classifying materials Look at the vast range of solid materials used in objects around you. What general classes of material do they fall into? Can you describe the internal structure of materials in these classes?
Investigating breaking stress Measure the breaking force and breaking stress for a material Use “plot and look” to identify outliers
Starter How can we compare how strong/stiff different metals are when the wire samples we have are of different diameters for different metals? Similarly, how can you compare how elastic/stretchy different metals are when the wire samples we have are of different lengths for different metals?
Force extension graphs and Young’s modulus Record and interpret a load-extension graph for copper Make an accurate and precise measurement of the Young’s Modulus of a material, estimating the uncertainties involved
Starter A wire of Material A fractures under a load of 100 N, while a wire of Material B fractures under a load of 10 N. Q1. What, if anything, can you conclude about the strengths of the materials A and B? Q2. What further information would you need in order to make a valid comparison between materials A and B?
Stress, strain and Young’s Modulus Define and then calculate these from experimental measurements
Olympus Mons imaged by Mars Reconnaissance Orbiter, September 2009
Measuring Young’s Modulus Make an accurate and precise measurement of the Young’s Modulus of a material, estimating the uncertainties involved
Stress strain curves Describe and explain the stress-strain curves for metals, ceramics and polymers
Note: Elastic limit and yield point are often very close to each other
STRONG HARD TOUGH STIFF
A These are microscope images of the fracture cross sections of rods of two different materials. A A B Which one has undergone ductile fracture, and which one brittle fracture? Explain your answer.
Electrical properties of materials Investigate the relationship between material dimensions and resistance Derive equations linking resistance, conductance, resistivity and conductivity
Measuring resistivity Make an accurate and precise measurement of the resistivity of a material, estimating the uncertainties involved Starter: Write down the equation for working out the resistance R of a wire of length L and area A. Compare with the equation of a straight line. What should you measure and plot in order to determine the resistivity of the metal?
Making measurements Review key considerations relating to experimental measurement
Uncertainty and Error How do they apply in this experiment? Random uncertainties Identify sources of measurement uncertainty and quantify them. Which contributes the most to the uncertainty in the final answer? Systematic errors Identify limitations in the design of the experiment and explain how they could either be eliminated or reduced in effect.
Accuracy and precision Accuracy: how close your measurement is to the accepted value Precision: what range of values does your measurement span? Accepted value = 110 108 +/- 4 125 +/- 2 111 +/- 9 85 +/- 40