University of Mumbai Syllabus For Semester 6 (TE Third Year) Transportation Engineering 2: Knowing the Syllabus is very important for the students of Semester 6 (TE Third Year). Shaalaa has also provided a list of topics that every student needs to understand.
The University of Mumbai Semester 6 (TE Third Year) Transportation Engineering 2 syllabus for the academic year 2021-2022 is based on the Board's guidelines. Students should read the Semester 6 (TE Third Year) Transportation Engineering 2 Syllabus to learn about the subject's subjects and subtopics.
Students will discover the unit names, chapters under each unit, and subtopics under each chapter in the University of Mumbai Semester 6 (TE Third Year) Transportation Engineering 2 Syllabus pdf 2021-2022. They will also receive a complete practical syllabus for Semester 6 (TE Third Year) Transportation Engineering 2 in addition to this.
University of Mumbai Semester 6 (TE Third Year) Transportation Engineering 2 Revised Syllabus
University of Mumbai Semester 6 (TE Third Year) Transportation Engineering 2 and their Unit wise marks distribution
University of Mumbai Semester 6 (TE Third Year) Transportation Engineering 2 Course Structure 2021-2022 With Marking Scheme
- Classification of roads, brief history of road developments in India, present status of roads in India
- Highway alignment, basic requirement of ideal alignment, factors governing highway alignment
- Highway location survey, map study, reconnaissance, topographic surveys, highway alignment in hilly area, drawing, report preparation
- Terrain classification, vehicular characteristics, highway cross section elements, salient dimensions, clearances, width of carriage way, shoulders, medians, width of road way, right of way, camber & its profile.(IRC Standards)
- Design speed, sight distance, perception time, break reaction time, analysis of safe sight distance, analysis of overtaking sight distance, intersection sight distance
- Horizontal curves: design of super elevation, its provisions, minimum radius of horizontal curves, widening of pavement, transition curves.
- Gradients: different types, maximum, minimum, ruling, exceptional, grade compensation in curves, vertical curves: design factors, comfort sight distance. Summit curve, valley curve.
- Introduction of geometric design software
- Subgrade materials: desirable properties, modulus of elasticity, modulus of subgrade reaction, classification of subgrade soils, importance of CBR
- Subbase material: desirable properties, different tests on aggregate, requirement of aggregate for different types of pavements.
- Bituminous materials: types of bituminous materials, test on bituminous materials, desirable properties, grade of bitumen
- Types of pavements, different method of pavement design, comparison of flexible & rigid pavements, design wheel load, equivalent single wheel load, equivalent wheel load factor,
- Flexible pavement design: GI method, IRC approach (IRC:37--1970; IRC:37- 1984; IRC: 37- 2001), Burmister’s layers theory, introduction to AASHTO method.
- Stress in Rigid Pavements, critical load position, stress due to load, stress due to temperature variation, combine loading temperature stress.; Design of rigid pavements (IRC: 58- 1988; IRC: SP- 62-2004)
- Introduction to pavement design software, relationship between numbers of cumulative axle, strain value, elastic modulus of materials.
- Modern equipment for road construction, construction of different types of roads: water bound macadam (WBM) road, different types of bituminous pavements, cement concrete pavement.(As per IRC MORTH specifications)
- Constructions of stabilized roads: different method of soil stabilization, use of geo-textile geogrid in highway subgrade.
- Pavement failure: flexible pavement failure, rigid pavement failure, maintenance of different types of pavements.
- Evaluation of pavements: structural evaluation of pavements, functional evaluation of pavement,
- Strengthening of existing pavement: objective of strengthening, types of overlay, different types of overlay, overlay design methodologieseffective thickness approach, deflection approach and mechanisticempirical approach, design of overlays using effective thickness approach and deflection approach resorting to Benkeleman Beam method (IRC: 81-1981; IRC: 81-1997)
- Traffic study and surveys: speed studies, presentation of data, journey, time delay studies, use of various methods, merits, demerits
- Vehicular volume count: types, various available methods, planning of traffic count.
- O- D survey, need , uses, various available methods
- Parking survey, need types, traffic sign marking, signals, miscellaneous traffic control aids, traffic regulations, traffic signals.
- Intersection types: at grade separation, factors influencing design.
- Introduction to traffic design related software’s
- necessity, surface drainage, subsurface drainage.( IRC recommendations) necessity, surface drainage, subsurface drainage.( IRC recommendations)
Question Papers For All Subjects
- Geotechnical Engineering 2 2012 to 2018
- Design and Drawing of Steel Structure 2008 to 2018
- Applied Hydraulics 2 2008 to 2018
- Transportation Engineering 2 2008 to 2018
- Environmental Engineering-1 2010 to 2018
- Theory of Reinforced and Prestressed Concrete 2010 to 2018