Course References

 

School of Engineering & Technology (SET)
Field of Study: Structural Engineering
 
CE72.11 : Computer Methods of Structural Analysis
CE72.12 : Finite Element Methods in Engineering
CE72.21 : Structural Dynamics
CE72.22 : Wind & Earthquake Engineering
CE72.31 : Continuum Mechanics
CE72.32 : Tall Buildings
CE72.41 : Advanced Concrete Technology
CE72.42 : Experimental Methods in Structural Engineering
CE72.51 : Advanced Steel Structures
CE72.52 : Advanced Concrete Structures
CE72.62 : Forensic Engineering Structural Evaluation & Retrofitting of Structures
CE72.90 : Advanced Topics in Bridge Engineering
CE72.9005 : Selected Topic: Concrete Repair & Maintenance
CE72.9006 : Selected Topic: Advanced Topics in Earthquake Engineering

 

 

 
CE72.11 : Computer Methods of Structural Analysis
No. Text/References Available Free Online
1 W. Kanok-Nukulchai. (2002). Computer methods of structural analysis : lecture note. Pathumthani : School of Civil Engineering, Asian Institute of Technology. (Not Available.)  
2 Ghali, A., Neville, A. M. & Brown, T. G. (2003). Structural analysis : a unified classical & matrix approach. London : Spon Press. TA645 G48 2003  
3 Jennings, A. (1977). Matrix computation for engineers & scientists. Londwon : Wiley. TA347 D4 J46  
4 W. Kanok-Nukulchai. (2002). Analysis interpretive computer package - 1993 Version. Pathumthani : Asian Institute of Technology. (Not Available.)  

 

 

 
CE72.12 : Finite Element Methods in Engineering
No. Text/References Available Free Online
1 Zienkiewicz, C. & Taylor, R. L. (2000). The finite element method. (Volume 1 : the basis, Volume 2 : Solid Mechanics). (5th ed.). Oxford : Butterworth-Heinemann.. TA640.2 Z5 2000 Lost to Flood  
2 Zienkiewicz, O. C. & Morgan, K. (1983). Finite element & approximation. New York : John Wiley & Sons. (Not Available.)  
3 Cook, R.D. , Malcus, D. S., Plesha, M. E. & Witt, R. J. (2002). Concepts & applications of finite element analysis. (4th ed.). New York : John Wiley & Sons. TA646 C66 2002  
4 W. Kanok-Nukulchai. (2007). MiniFEM user’s manual. Pathumthani : Finite Element Analysis Program, AIT Extended . (Not Available.)  

 

 

 
CE72.21 : Structural Dynamics
No. Text/References Available Free Online
1 Clough, R. W. & Penzien, J. (1993). Dynamics of structures. (2nd ed.). New York : McGraw-Hill. TA654 C6 1993  
2 Chopra, A. K. (1995). Dynamics of structures : theory & applications to earthquake engineering. Englewood Cliffs, N. j. : Prentice Hall. TA654.6 C466  
3 Smith, J. W. (1988). Vibration of structures : applications in civil engineering design. London : Chapman & Hall. TA654 S625  
4 Tauchert, T. R. (1974). Energy principles in structural mechanics. New York : McGraw-Hill. TA645 T37 1974i  
5 Bachmann, H. & Ammann, W. (1987). Vibrations in structures-induced by man & machines. Zurich : IABSE. TA654 B33  
6 Newl&, D. E. (1993). An introduction to r&om vibrations, spectral & wavelet analysis. (3rd ed.). Harlow, Essex, Eng. : Longman. QA935 N46 1993a  
7 Cr&all, S. H. & Mark, W. D. (1963). R&om vibration in mechanical systems. New York : Academic Press. TA355 C69  

 

 

 
CE72.22 : Wind & Earthquake Engineering
No. Text/References Available Free Online
1 Burrough, P. A. & McDonnell, R. A. (1998). Principles of geographic information systems. New Yrok : Oxford University Press. G70.212 B87  
2 Lee, J. & Wong, D. W-S. (2002). Statistical analysis with Arc View GIS. New York : John Wiley & Sons, Inc. G70.212 L43  
3 Huxhold, W. E. (1991). An introduction to urban Geographic Information Systems. New York : Oxford University Press. G70.2 H88  
4 Goodchild, M. & Gopal, S. (1989). Accuracy of spatial databases. London : Taylor & Francis. G70.2 A3  

 

 

 
CE72.31 : Continuum Mechanics
No. Text/References Available Free Online
1 Fung, Y.C. & Tong, P. (2001). Classical & computational solid mechanics. Songapore : World Scientific Publishing Company,. . QA807 F848 2001e  
2 Timoshenko, S. P. & Goodier, J. N. (1970). Theory of elasticity. (3rd ed.). New York : McGraw-Hill.

QA931 T52 1951

QA931 T52 1970

 
3 Broek, D. (1986). Elementary engineering fracture mechanics. Leyden : Noordhoff International PUb.

(Not Available.)

TA409 B76 (1974)

 
4

G. E. Mase (1970). Schaum's outlines of theory & problems on continuum mechanics. New York : McGraw-Hill.

(Not Available.) Free online

 

 

 
CE72.32 : Tall Buildings
No. Text/References Available Free Online
1 Gaylord, C. N. & Watabe, M. (eds.). (1979). Structural design of tall steel buildings. New York : American Society of Civil Eng TA681.5 S773 (Lost to Flood)  
2 American Society of Civil Engineeris. (1980). Tall building systems & concepts. New York : American Society of Civil Engineers. TH155 T355  
3 Council on Tall Buildings & Urban-Habitat. (1995). Structural systems for tall buildings. New York : McGraw-Hill, Inc. (Not Available.)  
4

Smith, B. S. & Coull, A. (1991). Tall buildings : structural analysis & design. New York : John Wiley & Sons, Inc.

(Not Available.)  
5 Purkiss, J. A. (2014). Fire safety engineering : design of structures. (3rd ed.) Boca Raton, FL : Butterworth-Heinemann. TH1065 P87 2014  
6 Hong Kong. Geotechnical Control Office. (1990). Review of design methods for excavations. Hong Kong : Geotechnical Engineering Office. Civil Engineering Department. (Not Available.)  
7 Tomlinson, M. J. (1994). Pile design & construction practice. (4th ed.). London : E & FN Spon.   Free Online
8 Tomlinson, M. J. (2010). Pile design & construction practice. (5th ed.). Londonw : E & FN Spon. TA780 T65 2008  
9 Barrie, D. S. & Paulson, B. C. (1992). Professional construction management : including CM, design-construct, & general contracting. (3rd ed.). New York : McGraw Hill. (Not Available.)  

 

 

 
CE72.41 : Advanced Concrete Technology
No. Text/References Available Free Online
1 Mehta, P. K. & Monteiro, P. J. M. (2006). Concrete : microstructure, properties & materials. (3rd ed.). New York : McGraw.Hill. (Not Available.) Free Online
2 Mehta, P. K. & Monteiro, P. J. M. (2014). Concrete : microstructure, properties & materials. (4th ed.). New York : McGraw.Hill. TA439 M364 2014  
3 Neville, A. M. (1995). Properties of concrete. (4th ed.). New York : Wiley . TA439 N48 1997  
4

ACI Manual of concrete practice (2000)
Part 1:    Materials & general properties of concrete
Part 2:    Construction practices & inspection pavements
Part 3:    Use of concrete in buildings-design, specifications, & related topics
Part 4:    Bridges, substructures, sanitary, & other special structures

Part 5:    Masonry, Precast concrete, Special processes

(Not Available.)  
5 Maekawa, K., Kishi, T. & Chaube, R. (1999). Modelling of concrete performance. London : Routledge. TA440 M243  

 

 

 
CE72.42 : Experimental Methods in Structural Engineering
No. Text/References Available Free Online
1 American Society for Testing & Materials. (1983). Annual books of ASTM st&ards. Philadelphia : ASTM. TA401 A653  
2 American Society for Testing & Materials. (2001). Annual books of ASTM st&ards. Philadelphia : ASTM TA401 A653  
3 Dally, J. W. & Riley, W. F. (1978). Experimental stress analysis. New York : McGraw-Hill. TA407 D32 1978  
4 Dally. J. W. & Riley, W. F. (1993). Experimental stress analysis. New York : McGraw-Hill. (Not Available.)  
5 Preece, P. W. & Davies, J. D. (1964). Models for structural concrete. London : CR Books. TA177 P72  
6 Murphy, G. (1950). Similitude in engineering. New York : Ronald Press. TA177 M8  
7 Harris, H. G. & Sabnis, G. M. (1983). Structural modeling & experimental techniques. (2nd ed.). Englewood Cliffs, N. J. : Prentice-Hall. TA643 S87  

 

 

 
CE72.51 : Advanced Steel Structures
No. Text/References Available Free Online
1 American Institute of Steel construction. (2015). Steel construction manual. (14th ed.). New York : AISC. (Not Available.)  
2 Chen, W-F. (1987). Structural stability : theory implementation. New York : Elsevier TA656 C44 1987  
3 Bazant, Z. P. & Cedolin, L. (2010). Stability of structures : elastic, inelastic, fracture & damage theories. Hackensack, NJ : World Scientific TA656 B39 Lost to flood  
4 Galambos, T. V. & Surovek, A. E. (2008). Structural stability of steel : concepts & applications for structural engineer. Hoboken, N.J. : John Wiley & Sons TA684 G26 Lost to flood  

 

 

 
CE72.52 : Advanced Concrete Structures
No. Text/References Available Free Online
1 Park, R. & Paulay, T. (1975). Reinforced concrete structures. New York : Wiley. TA683.2 P28  
2 Hollaway, L. C. & Leeming, M. B. (1999). Strengthening of reinforced concrete structures : using externally-bonded FRP composites in structures & civil engineering. Woodhead Publishing. (Not Available.)  
3 Neville, G. B. (1984). Simplified design : reinforced concrete buildings of moderate size & height. Portl& Cement Association. (Not Available.)  
4

ACI Manual of concrete practice (2000)
Part 1:    Materials & general properties of concrete
Part 2:    Construction practices & inspection pavements
Part 3:    Use of concrete in buildings-design, specifications, & related topics
Part 4:    Bridges, substructures, sanitary, & other special structures

Part 5:    Masonry, Precast concrete, Special processes

(Not Available.)  
5 Lin, T. Y. & Stotesbury, S. D. (1981). Structural concepts & systems for architects & engineers. (2nd ed). New York : John Wiley TA658 L47  
6 Schodek, D. L. (1998). Structures. (3rd ed). Prentice Hall, Inc. (Not Available.)  
7 Macgregor, J. G. (1997). Reinforced concrete : mechanics & design. (3rd ed.). Upper Saddle River, N.J. : Prentice-Hall. TA683.2 M34 1997  
8 Nawy, E.G. (1996). Reinforced concrete : a fundamental approach. (3rd ed). Upper Saddle River, N.J. : Prentice Hall.  TA444 N38 1995  
9 Nawy, E. G. (2000). Reinforced concrete : a Ffndamental approach. (4th ed). Upper Saddle River, N.J. : Prentice Hall.. (Not Available.)  

 

 

 
CE72.62 : Forensic Engineering Structural Evaluation & Retrofitting of Structures
No. Text/References Available Free Online
1 Lewis, G. L. (2003). Guidelines for forensic engineering practice. Reston, US : ASCE (Not Available.)  
2 Task Committee on Guidelines for Failure Investigation. (1989). Guidelines for failure investigation. New York : American Society of Civil Engineers. TA656 T38 Lost to Flood  
3 American Society of Civil Engineers. (1995). Failures in civil engineering : structural, foundation & geoenvironmental case studies. New York : ASCE. TA656 F35 Lost to Flood  
4 Feld, J. & Carper, K. L. (1997). Construction failures. ( 2nd ed.). New York : J.Wiley & Sons, Inc. TH441 F43 1997  
5 Hull, B. & John, V. (1988). Non-destructive testing. n.p.. : English Language Book Society. TA417.2 H85  
6 Bungey, J.H. & Millard, S. G. (1996). Testing of concrete in structures. London : Blackie Academic & Professional. TA440 B85 1996  
7 Mix, P.E. (1997). Introduction to nondestructive testing. New York : John Wiley & Sons, Inc. TA417.2 M59  
8

ACI Manual of concrete practice (2000)
Part 1:    Materials & general properties of concrete
Part 2:    Construction practices & inspection pavements
Part 3:    Use of concrete in buildings-design, specifications, & related topics
Part 4:    Bridges, substructures, sanitary, & other special structures

Part 5:    Masonry, Precast concrete, Special processes

(Not Available.)  
9

Emmons, P.H. (1993) Concrete repair & maintenance illutrated. Kingston, Mass. : R.S. Means.

TA681n E45  

 

 

 

 
CE72.90 : Advanced Topics in Bridge Engineering
No. Text/References Available Free Online
1

Walther, R. Houriet, B. Isler, W. & Moia, P. (1999). Cable stayed bridges. London : Thomas Telford.

TG405 P6613 1999  
2 Zhao, J. J. (2012). Bridge engineering : design, rehabilitation, and maintenance of modern highway bridges. (3rd ed.) New York : McGraw-Hill. TG300 T66 2012  

 

 

 
CE72.9005 : Selected Topic: Concrete Repair & Maintenance
No. Text/References Available Free Online
1 Budinski, K.G. & Budinski, M.K., (2002). Engineering materials : properties & selection. Upper Saddle River, N. J. : Prentice Hall. TA403 B787 2002 Lost to Flood  
2 Ohama, T., Kawakami, M. & Fukuzawa, K. (eds.). (1997). Polymers in concrete : proceedings of the Second East Asia Symposium on Polymers in Concrete (II-EASPIC), College of Engineering, Nihon University, Koriyama, Japan May 11-13, 1997. London : E & FN SPON, London.  TA443 P58 E28 1997  
3 Chess, P.M. & Broomfield, J. P. (2014). Cathodic protection of steel in concrete and masonry. (2nd ed.). Boca Raton, FL : CRC Press. TA445.5 C38 2014  
4 Lee, H. & Neville, K., (1982). Handbook of epoxy resins. New York : McGraw-Hill Book Inc. TP1180 E6 L4  
5

Shields, J. (1970). Adhesives handbook. London : Butterworths

TP968 S53  
6 Skeist, I. (ed.). (1962). Handbook of adhesives. N.p. : REINHOLD. TP968 S58  
7 Uhlig, H.H. & Revie, R.W. (1985). Corrosion & corrosion control : an introduction to corrosion science & engineering. New York : John Wiley & Sons.. TA462 U39 1985  
8 Page, C.L., Bamforth, P.B. & Figg, J.W. (ed.). (1996). Corrosion of reinforcement in concrete construction. Cambridge, UK. : The Royal Society of Chemistry. TA445.5 I58 1996  

 

 

 
CE72.9006 : Selected Topic: Advanced Topics in Earthquake Engineering
No. Text/References Available Free Online
1 Budinski, K.G. & Budinski, M.K., (2002). Engineering materials : properties & selection. Upper Saddle River, N.J. : Prentice Hall. TA403 B787 2002  
2 Chen, W-F & Scawthorn, S. (2003). Earthquake engineering H&book. Boca Raton, FL : CRC Press. (Not Available.)  
3 Shearer, P. M. (2009). Introduction seismology. (2nd ed.). (New York : Cambridge University Press). (Not Available.)  
4 Kramer, S.L. (1996). Geotechnical ethquake engineering. Upper Saddle River, N. j. : Prentice Hall. TA654.6 K72  
5 Coburn, A. W. & Spence, R. J. S. (2002). Earthquake protection. (2nd ed.). Chichester, Wes Sussex. Eng, : John Wiley & Sons. QE539.2 S34 C63 2002  
6 Bolt, B. A. (1993). Earthquakes. New York : W.H. Freeman. QE534.2 B64 1993  
7 Scholz, C. H. (1990). The mechanics of earthquakes and faultings. Cambridge, Eng. : Cambridge University Press. QE534.2 S37  
8 Tiedemann, H. (1992). Earthquake and volcanic eruptions: a handbook on risk assessment. N. p. : Swiss Re. (Not Available.)  
9 Hays, W., Mohammadioun, B. & Mohammadioun, J. (1998). Seismic zonation. N. p. : Quest Edition-Presses Academiques. (Not Available.)  
10 Pauley, T. & Priestley, M. j. N. (1992). Seismic design of reinforced concrete and masonry buildings. New York : Wiley. TA658.44 P38  
11 Comite Euro-International Du Beton. (1996). RC frames under earthquake loading : state of the art report . N.p. : Thomas Telford. (Not Available.)