Given the table below and your judgement for extreme operational conditions, make a selection of polymers for the following applications respectively: the transparent eye shield section of a firefighter's suit (operating range of 100-130C), a kettle handle (100-120C), a fighter jet canopy/shield (can be as cold as -40C and hot as 120C) and a ski board (-20C to -10C). Table 15.2 Melting and Glass Transition Temperatures for Some of the More Common Polymeric Materials Material Polyethylene (low density) Polytetrafluoroethylene Polyethylene (high density) Polypropylene Nylon 6,6 Polyester (PET) Poly(vinyl chloride) Polystyrene Polycarbonate LDPE, Nylon, Polycarbonate, HDPE O b. Polypropylene, PET, PTFE, Polypropylene O c. HDPE, PVC, Nylon, Polycarbonate O d. PTFE, Polypropylene, HDPE, LDPE O e. HDPE, Polycarbonate, PTFE, LDPE O f. Polycarbonate, PTFE, LDPE, HDPE a. Glass Transition Temperature [°C (°F)] -110 (-165) -97 (-140) -90 (-130) -18 (0) 57 (135) 69 (155) 87 (190) 100 (212) 150 (300) Melting Temperature [°C (°F)] 115 (240) 327 (620) 137 (279) 175 (347) 265 (510) 265 (510) 212 (415) 240 (465) 265 (510)

Given the table below and your judgement for extreme operational conditions, make a selection of polymers for the following applications respectively: the transparent eye shield section of a firefighter's suit (operating range of 100-130C), a kettle handle (100-120C), a fighter jet canopy/shield (can be as cold as -40C and hot as 120C) and a ski board (-20C to -10C). Table 15.2 Melting and Glass Transition Temperatures for Some of the More Common Polymeric Materials Material Polyethylene (low density) Polytetrafluoroethylene Polyethylene (high density) Polypropylene Nylon 6,6 Polyester (PET) Poly(vinyl chloride) Polystyrene Polycarbonate LDPE, Nylon, Polycarbonate, HDPE O b. Polypropylene, PET, PTFE, Polypropylene O c. HDPE, PVC, Nylon, Polycarbonate O d. PTFE, Polypropylene, HDPE, LDPE O e. HDPE, Polycarbonate, PTFE, LDPE O f. Polycarbonate, PTFE, LDPE, HDPE a. Glass Transition Temperature [°C (°F)] -110 (-165) -97 (-140) -90 (-130) -18 (0) 57 (135) 69 (155) 87 (190) 100 (212) 150 (300) Melting Temperature [°C (°F)] 115 (240) 327 (620) 137 (279) 175 (347) 265 (510) 265 (510) 212 (415) 240 (465) 265 (510)

Chemistry

10th Edition

ISBN:9781305957404

Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste

Publisher:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste

Chapter1: Chemical Foundations

Section: Chapter Questions

Problem 1RQ: Define and explain the differences between the following terms. a. law and theory b. theory and...

See similar textbooks

Related questions

Q: In an aqueous solution containing a 1:1 mixture of SDS (sodium dodecyl sulfate and cocoamido propyl…

A: Given :An aqueous solution containing a 1:1 mixture of SDS (sodium dodecyl sulfate and cocoamido…

Q: A crystal is known to have a face-centered (F-centering) cubic unit cell. The fractional coordinate…

A: There are four possible coordinator --- 1) (-0.5,0.5,1.5) 2) (-0.5,1,-0.5) 3) 0.5,0.5,0.5) 4) (1/2,…

Q: A molten thermoplastic polymer is made into a large 3-dimensional solid action figure. The polymer…

A: Types of plastic: Thermoplastic polymer Thermosetting polymer Mostly thermoplastic polymers are…

Q: Compatible Polymers A and B are to be blended to achieve a glass-transition temperature of 60 o C.…

Q: A molten thermoplastic polymer is made into a large 3-dimensional solid action figure. The polymer…

A: Types of plastic: Thermoplastic polymer Thermosetting polymer Mostly thermoplastic polymers are…

Q: Compute the mass fractions of liquid in the following refractory materials at 1600°C(2910°F): (a )…

A: I hope you got the answers, Feel free to ask any queries and doubts. I tried my best to answer the…

Q: In a gas collection tube flipped into a beaker of water, magnesium is reacted with hydrochloric acid…

A: P = Pressure = T=Temperature in Kelvin = Volume = V = Ideal gas constant = R = Ideal Gas…

Q: Calculate the vapor pressures of n-hexadecane at 15 °C (in bar and Pa) (1) by using the the boiling…

A: The main aim of this question is to show the vapor pressures of n-hexadecane at 15 °C (in bar and…

Q: A single crystal Ni (in FCC) alloy bar is uniaxially pulled along [-123]. The bar starts to yield at…

Q: Melting Point Experiment Unknown C: Melting point of Unknown C: Candidate compounds from Table 1: 1.…

A: We'll answer the first question since the exact one wasn't specified. Please submit question…

Q: Macromolecules containing fibrous inorganic and organic fillers in polyolefins like polypropylene…

A: The interplay between polymers and crystallinity is a dynamic area within polymer science,…

Q: Q. What are the advantages of pyrolytic graphite coatings for furnaces? Q. Why is argon preferred to…

A: Graphite is the allotrops of carbon. Atomization technique - there are four methods 1) flame…

Q: Given the table below and your judgement for extreme operational conditions, select polymers for the…

Q: Useful Data and Formulae: Cp water = 4.2 kJ kg-1 K-1 Specific volume of water at 35°C = 0.001006 m³…

A: Standard enthalpy of formation is the change in enthalpy when 1 mole of a substance is formed from…

Q: Steel of 7.5 kg ، 99.57 wt% Fe-0.43 % below the eutectoidو find the following: 1 .The proeutectoid…

A: Eutectoid is used to indicate the liquid phase in a eutectic phase diagram.

Q: 5. Rank the following molecules by basicity. The most basic molecule is 1, while the least basic is…

A: The strength of a conjugate base depends on the strength of the acid from which it is producedStrong…

Q: The following picture would be best described as A) a liquid compound B) a liquid mixture C) a…

A: Liquid particles have more intramolecular forces than gas particles.

Q: 11) JJ Techie calcined some ceramic powders at 1600℃ for 12 hrs, when removed from the furnace, JJ…

A: Given:- 11) JJ Techie calcined some ceramic powders at 1600℃ for 12 hrs, when removed from…

Question

Given the table below and your judgement for extreme operational conditions, make a selection of polymers for the following applications respectively: the
transparent eye shield section of a firefighter's suit (operating range of 100-130C), a kettle handle (100-120C), a fighter jet canopy/shield (can be as cold as
-40C and hot as 120C) and a ski board (-20C to -10C).
Table 15.2 Melting and Glass Transition Temperatures for Some
of the More Common Polymeric Materials
Material
Polyethylene (low density)
Polytetrafluoroethylene
Polyethylene (high density)
Polypropylene
Nylon 6,6
Polyester (PET)
Poly(vinyl chloride)
Polystyrene
Polycarbonate
LDPE, Nylon, Polycarbonate, HDPE
O b. Polypropylene, PET, PTFE, Polypropylene
O c. HDPE, PVC, Nylon, Polycarbonate
d.
PTFE, Polypropylene, HDPE, LDPE
HDPE, Polycarbonate, PTFE, LDPE
Polycarbonate, PTFE, LDPE, HDPE
a.
e.
O f.
Glass Transition
Temperature
[°C (°F)]
-110 (-165)
-97 (-140)
-90 (-130)
-18 (0)
57 (135)
69 (155)
87 (190)
100 (212)
150 (300)
Melting
Temperature
[°C (°F)]
115 (240)
327 (620)
137 (279)
175 (347)
265 (510)
265 (510)
212 (415)
240 (465)
265 (510)

Expert Solution

This question has been solved!

Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.

SEE SOLUTION Check out a sample Q&A here

Step 1

VIEW

Step 2

VIEW

Step by step

Solved in 2 steps with 2 images

SEE SOLUTION Check out a sample Q&A here

Knowledge Booster

Quality Assurance and Calibration Methods

Learn more about

Need a deep-dive on the concept behind this application? Look no further. Learn more about this topic, chemistry and related others by exploring similar questions and additional content below.

Similar questions

Sulfur phase diagram question. Thank you!
Boiling Enthalpy of point vaporization (K) (kJ mol-1) Liquid benzene toluene 353.1 30.72 383.6 33.18 octane 398.7 34.41 chloroform 334.2 29.24 n-propanol 370.2 41.44 ammonia 239.6 23.35 Predict which of the following compounds follow Trouton's rule. Check all that apply. • View Available Hint(s) toluene ammonia chloroform n-propanol octane benzene
JJ Techie calcined some ceramic powders at 1600℃ for 12 hrs, when removed from thefurnace, JJ was upset to find a big hard lump., After grinding up to the lump, someone told JJ to add a sintering aid and deflocculant to the ceramic before trying to press it into cylinders 10 inch by 0.25 inch in diameter. How could JJ do this well? JJ needs this size ceramic rod for experiments.
An Fe-C alloy with the eutectoid composition has been homogenized at 760°C. Use the time-temperature-transformation diagram below to determine what microstructure would be developed by rapidly cooling to 600°C and holding for 100 seconds, followed by rapid cooling to 400°C and holding for 1000 seconds. followed by quenching to room temperature. Temperature ("C) 800 700 600 500 400 300 200 100 10 Mstart M50%) M90% 1 100% martensite 100 % bainite 10 MV 200 parte 50% pearlite 50% bainito 30² Time to 100% tempered martensite Eutectoid temperature 50% 10² 10
Introducing an impurity into a solid causes: Group of answer choices the melting point to depress due to disruption of IMF pattern in solid the melting point to increase because more energy is needed to overcome IMFs a variable effect on melting point
data collected Table 1 BINARY LIQUID-VAPOUR acetone chloform PHASE DIACRAM Temperature °c mol fraction Acetone pure mol fraction 50°℃ 1,3593 IL 1,3579 RICH-SIDE 53,5°c 2V 1,3646 2L 1,3676 RESUME 56,5°℃ 3V 1,3659 3L 1,3705 ADA CHLOROForm 57,5°C BIV 3738 4L 1,3819 ADD CHLOROFORM 58,5 SV 1,3841 SL 1,3958 AZEOTROPE 76 GV 1,3900 6L 1,4087 CHLOROFORM PURE 62 Tov 1,4464 7L 1,4518 RICH-SIDE 58,5 V 1,4352 8L 1,4336 60 AZEOTROPE 62 10 QV 1,4166 9L 1,4143 10L 1,4164 1,4166 2. 3. Plot the temperature values versus mole fraction. Draw a smooth curve through the distillate points V and another through the residue points L. Label the areas of the diagram to indicate what phases are present. Report the azeotropic composition and temperature.