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Faculty of Science Handbook, Session 2019/2020
Assessment Methods: SID2002 INDUSTRIAL POLYMER CHEMISTRY I
Continuous assessment: 40%
Final examination: 60% PART A: Polymer Synthesis
Introduction: Basic aspects of polymers - names, chemical
Medium of instruction: formulas/ structures and properties. Classifications of
English polymers, thermoplastics, thermosets and elastomers.
Requirements of selective industries surface coatings,
References: adhesives, packaging, automotives, construction and
nd
1. Donald A. MacQuarrie. Quantum Chemistry, 2 ed., medical appliances. Discussion about the management of
University Science Book, 2008. polymers in the environment. Polymerisations: Mechanism,
2. A. R. Edmonds, Angular Momentum in Quantum basic polymerisations (step-growth dan chain-growth),
Mechanics, Princeton University Press, 1974. advanced synthesis techniques (introduction of controlled
3. I. P. Grant, Relativistic quantum theory of atoms and living radical polymerisations) and industrial polymerisation
molecules: theory and computation, Springer, 2007. processes (bulk, solution, suspension, emulsion, solid-
4. C J. Joachain, Quantum collision theory, North-Holland state, gas phase and plasma polymerisation and
Publishing Company, 1979. polymerization in supercritical fluid). Measurement of
5. M. S. Child, Molecular collision theory, Academic Press, molecular weight: Basic introduction on molecule weight,
1974. MW and molecular weight distribution, MWD, also effects
6. G. D. Billing and K. V. Mikkelsen, Introduction to on the physical properties of polymers.
molecular dynamics and chemical kinetics, John Wiley,
1996. PART B: Latex and Rubber
Type of latices: natural, synthetic, artificial and modified
SID2001 INDUSTRIAL CHEMISTRY I latices. Latex composition. Latex testing (Physical tests: dry
rubber content (DRC) and total solid content of latex (TSC);
Historical overview of chemical industries. Industrial Chemical tests: protein analysis; stability test). Latex
chemistry is part of the economy that deals with the applications: dipping, extrusion and foam. Rubber:
separation and processing of raw materials into Introduction on the SMR grades. Vulcanised rubber.
commercially useful products. Challenges on the synthesis Rubber testing (e.g. tensile, hardness, abrasion etc),
of chemicals that are beneficial, profitable and responsible Rubber applications: tyres, footwear etc.) Viscoelasticity:
for the safety, health and environment. Research and Introduction, dynamic-mechanical analysis, viscoelastic
development from laboratory scale to commercial scale on properties of polymer solutions and melts, dielectric
the production of selected chemicals. Economic aspect, analysis. Rubber elasticity: Thermodynamics and
fixed cost, variable cost, revenue, management and patent statistical theory, phenomenological model and recent
right. Forecasting the profitability for pioneering industries development. Mechanical properties of polymers –
on the production of selected chemicals through measurements of mechanical properties: tensile,
interpretation of break-even chart. elongation, modulus etc.
Separation technology covers aspects related to chemical Assessment Methods:
process of adsorption, extraction, purification and Continuous assessment: 20%
distillation. The chemical process includes natural gas, Practical: 30%
petroleum and vegetable oil. Final examination: 50%
Petroleum refining process includes crude oil distillation, Medium of instruction:
delayed coking, catalytic reforming and isomerisation, English
cracking and hydrotreating. Palm oil refining includes
physical and chemical processes on upstream and References:
downstream industries. 1. Fried, J. R. (2003), Polymer Science & Technology, 2nd
Ed. Prentice Hall.
Assessment Methods: 2. Flory, P. J. (1991), Prinsip Kimia Polimer (Terjemahan),
Continuous assessment: 30% Dewan Bahasa dan Pustaka.
Final examination: 70% 3. Young, R. J. and Lovell, P. A. (2011), Introduction to
Polymers, 3rd Ed. Taylor & Francis Group.
Medium of instruction: 4. Sperling, H (1992). Introduction of Physical Polymer
English Sciences, 2nd Ed. John Wiley & Sons.
References:
1. F. D., Gunstone, J. L. Harwood, A. J., Djikstra, Lipid SID2003 BASIC ANALYTICAL CHEMISTRY
rd
Handbook. 3 ed., CRC Press, 2007.
2. J. G., Speight, The Chemistry and Technology of Introduction
th
Petroleum, 4 ed., CRC Press, 2006. Classical analysis, concentration systems / units, sampling
3. J. H., Gary, G. E., Handwerk, and Kaiser, M.J., in analysis.
th
Petroleum Refining: Technology and Economics, 5 ed., Data Treatment
CRC Press, 2006. Precision and accuracy, statistical methods for error
th
4. R.N., Shreve, , Shreve’s Chemical Process Industries, 5 analysis, population and sampling, confidence limits,
ed., McGraw-Hill, 1984. measurement uncertainty, significant figures, test for mean,
rd
5. K. Bauer, Common Fragrance and Flavor materials, 3 rejection of analytical data. Quality control and quality
ed., Wiley VCH, 2001. assurance.
6. I., Jacqueline., A.S., Kroschwitz, lEncyclopaedia of
th
Chemical Technology5 Edition, John Wiley and Sons, Spectrometry
2006. Interaction of light energy between atoms and molecules;
quantitative aspects of absorption. Molecular spectrometric
techniques – UV-Visible, IR, NIR; dispersion, absorption,
fluorescence and emission. Spectrophotometric
instruments; emission spectroscopy and atomic absorption
spectrometry- an introduction, uses of spectrophotometry.
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