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Sl.No Chapter Name MP4 Download
1IntoductionDownload
2Crystal geometryDownload
3Unit cellDownload
4Classification of latticesDownload
5Gaps in Bravais lattice listDownload
6Symmetry - IDownload
7Symmetry - IIDownload
8Classification of lattices on the basis of symmetryDownload
9A symmetry based approach to Bravais latticesDownload
10Miller indices of directionsDownload
11Miller indices for planesDownload
12Miller indices for plane and its normal in Cubic CrystalDownload
13Weiss Zone law and its applicationsDownload
14Inter-planar spacingDownload
15Bragg’s LawDownload
16Close-packing of hard spheresDownload
17Hexagonal Close-Packed (HCP) structureDownload
18Lattice and motif of HCP crystalsDownload
19c/a ratio of an ideal HCP crystalDownload
20ABCABC stacking of close-packed spheresDownload
21Voids in close-packed structuresDownload
22Solid solutions IDownload
23Solid solutions IIDownload
24Hume-Rothery rulesDownload
25Ordered and disordered solid solutionsDownload
26GrapheneDownload
27Structure of graphiteDownload
28Structure of diamondDownload
29Carbon nanotubes (CNT)Download
30Buckminsterfullerene (C60)Download
31Ionic solidsDownload
32NaClDownload
33CsClDownload
34ZnSDownload
35BCC vs CsClDownload
36Amorphous SolidsDownload
37PolymersDownload
38Vinyl PolymersDownload
39Thermoplasts and ThermosetsDownload
40TacticityDownload
41CopolymersDownload
42Crystallinity in PolymersDownload
43Defects in CrystalsDownload
44VacanciesDownload
45Edge dislocation: Half planeDownload
46Edge dislocation: SlipDownload
47Characteristic vectors of a dislocationDownload
48Edge, screw and mixed dislocationsDownload
49Screw dislocationsDownload
50Burgers circuitDownload
51Elastic energy of a dislocation lineDownload
52Burgers vector: Shortest lattice translationDownload
53Burgers vector of a dislocation is constant along the lineDownload
54(Geometrical properties of a dislocations) Dislocation cannot end abruptly in a crystal: Free surfaceDownload
55Dislocation cannot end abruptly in a crystal: Grain boundariesDownload
56Dislocation cannot end abruptly in a crystal: Dislocation nodesDownload
57Dislocation cannot end abruptly in a crystal: Dislocation loopDownload
58Dislocation motionDownload
592D defects: Surfaces or interfacesDownload
60Free surface or external surface of the crystalDownload
61Stacking faultsDownload
62Twin boundaryDownload
63Grain boundaryDownload
64Small angle symmetric tilt boundaryDownload
65Ball bearing modelDownload
66Phase diagrams: IntroductionDownload
67Phases and componentsDownload
68Uses of phase diagramsDownload
69Phases present in the systemDownload
70Composition of phases present in the systemDownload
71Proportion of phases present in the systemDownload
72Microstructure evolution during solidification in isomorphous systemsDownload
73Eutectic systemDownload
74Eutectic reactionDownload
75Eutectic, hypoeutectic and hypereutectic alloysDownload
76Gibbs’ phase ruleDownload
77Fe-C phase diagramDownload
78Eutectoid, hypoeutectoid and hypereutectoid steelsDownload
79Microstructure of a hypoeutectoid steelDownload
80Microstructure of a hypereutectoid steelDownload
81Diffusion: IntroductionDownload
82Fick’s first lawDownload
83Fick’s second lawDownload
84Error function solution of Fick’s second lawDownload
85Atomic mechanisms of diffusionDownload
86Substitutional diffusion revisitedDownload
87Diffusion pathsDownload
88Steady and unsteady state diffusionDownload
89Phase TransformationDownload
90NucleationDownload
91Nucleation and capillary riseDownload
92Nucleation, growth and overall transformationDownload
93Time-temperature-transformation (TTT) diagramDownload
94Homogeneus and heterogeneous nucleationDownload
95Heat treatment of steelsDownload
96TTT diagram of Eutectoid SteelsDownload
97Quenching and martensiteDownload
98Austempering and bainiteDownload
99TemperingDownload
100Residual stresses and Quench cracksDownload
101Marquenching and martemperingDownload
102TTT diagram of hypoeutectoid and hypereutectoid steelsDownload
103TTT diagram of alloy steelDownload
104hardenability of steelsDownload
105Glass CeramicsDownload
106Tensile testDownload
107Plastic deformation and crystal structureDownload
108Shape changeDownload
109SlipDownload
110Resolved shear stressDownload
111CRSSDownload
112Schmid's lawDownload
113CRSS:Theory vs experimentDownload
114Why is experimental CRSS less than theoretical CRSSDownload
115Strengthening mechaniksmsDownload
116Dislocation densityDownload
117Frank-Read sourceDownload
118strain hardeningDownload
119Dislocation interaction leading to strain hardening IDownload
120Dislocation interaction leading to strain hardening IIDownload
121Solid solution hardeningDownload
122Grain size hardeningDownload
123Age hardening IDownload
124Age hardening IIDownload
125Metastable precipitatesDownload
126Annealing of cold-worked metalsDownload
127RecoveryDownload
128RecrystallizationDownload
129Grain GrowthDownload
130True stress and true strainDownload
131CreepDownload
132Effect of stress and temperature on creepDownload
133Creep MechanismsDownload
134CompositesDownload
135Isostrain modulusDownload
136Isostress modulusDownload
137FractureDownload
138Ductile and Brittle FractureDownload
139Role of crack sizeDownload
140Griffith's CriterionDownload
141Stress ConcentrationDownload
142Ductile to brittle transitionDownload
143Enhancing fracture resistanceDownload
144Toughening of glass: TemperingDownload
145Toughening of glass: Ion-ExchangeDownload
146FatigueDownload
147Sub-Critical crack growthDownload

Sl.No Chapter Name English
1IntoductionDownload
Verified
2Crystal geometryDownload
Verified
3Unit cellDownload
Verified
4Classification of latticesDownload
Verified
5Gaps in Bravais lattice listDownload
Verified
6Symmetry - IDownload
Verified
7Symmetry - IIDownload
Verified
8Classification of lattices on the basis of symmetryDownload
Verified
9A symmetry based approach to Bravais latticesDownload
Verified
10Miller indices of directionsDownload
Verified
11Miller indices for planesDownload
Verified
12Miller indices for plane and its normal in Cubic CrystalDownload
Verified
13Weiss Zone law and its applicationsDownload
Verified
14Inter-planar spacingDownload
Verified
15Bragg’s LawDownload
Verified
16Close-packing of hard spheresDownload
Verified
17Hexagonal Close-Packed (HCP) structureDownload
Verified
18Lattice and motif of HCP crystalsDownload
Verified
19c/a ratio of an ideal HCP crystalDownload
Verified
20ABCABC stacking of close-packed spheresDownload
Verified
21Voids in close-packed structuresDownload
Verified
22Solid solutions IDownload
Verified
23Solid solutions IIDownload
Verified
24Hume-Rothery rulesDownload
Verified
25Ordered and disordered solid solutionsDownload
To be verified
26GrapheneDownload
Verified
27Structure of graphiteDownload
Verified
28Structure of diamondDownload
To be verified
29Carbon nanotubes (CNT)Download
To be verified
30Buckminsterfullerene (C60)Download
To be verified
31Ionic solidsDownload
To be verified
32NaClDownload
To be verified
33CsClDownload
To be verified
34ZnSDownload
To be verified
35BCC vs CsClDownload
To be verified
36Amorphous SolidsDownload
To be verified
37PolymersDownload
To be verified
38Vinyl PolymersDownload
To be verified
39Thermoplasts and ThermosetsDownload
To be verified
40TacticityDownload
To be verified
41CopolymersDownload
To be verified
42Crystallinity in PolymersDownload
To be verified
43Defects in CrystalsDownload
To be verified
44VacanciesDownload
To be verified
45Edge dislocation: Half planeDownload
To be verified
46Edge dislocation: SlipDownload
To be verified
47Characteristic vectors of a dislocationDownload
To be verified
48Edge, screw and mixed dislocationsDownload
To be verified
49Screw dislocationsDownload
To be verified
50Burgers circuitDownload
To be verified
51Elastic energy of a dislocation lineDownload
To be verified
52Burgers vector: Shortest lattice translationDownload
To be verified
53Burgers vector of a dislocation is constant along the lineDownload
To be verified
54(Geometrical properties of a dislocations) Dislocation cannot end abruptly in a crystal: Free surfaceDownload
To be verified
55Dislocation cannot end abruptly in a crystal: Grain boundariesDownload
To be verified
56Dislocation cannot end abruptly in a crystal: Dislocation nodesDownload
To be verified
57Dislocation cannot end abruptly in a crystal: Dislocation loopDownload
To be verified
58Dislocation motionDownload
To be verified
592D defects: Surfaces or interfacesDownload
To be verified
60Free surface or external surface of the crystalDownload
To be verified
61Stacking faultsDownload
To be verified
62Twin boundaryDownload
To be verified
63Grain boundaryDownload
To be verified
64Small angle symmetric tilt boundaryDownload
To be verified
65Ball bearing modelDownload
To be verified
66Phase diagrams: IntroductionDownload
To be verified
67Phases and componentsDownload
To be verified
68Uses of phase diagramsDownload
To be verified
69Phases present in the systemDownload
To be verified
70Composition of phases present in the systemDownload
To be verified
71Proportion of phases present in the systemDownload
To be verified
72Microstructure evolution during solidification in isomorphous systemsDownload
To be verified
73Eutectic systemDownload
To be verified
74Eutectic reactionDownload
To be verified
75Eutectic, hypoeutectic and hypereutectic alloysDownload
To be verified
76Gibbs’ phase ruleDownload
To be verified
77Fe-C phase diagramDownload
To be verified
78Eutectoid, hypoeutectoid and hypereutectoid steelsDownload
To be verified
79Microstructure of a hypoeutectoid steelDownload
To be verified
80Microstructure of a hypereutectoid steelDownload
To be verified
81Diffusion: IntroductionDownload
To be verified
82Fick’s first lawDownload
To be verified
83Fick’s second lawDownload
To be verified
84Error function solution of Fick’s second lawDownload
To be verified
85Atomic mechanisms of diffusionDownload
To be verified
86Substitutional diffusion revisitedDownload
To be verified
87Diffusion pathsDownload
To be verified
88Steady and unsteady state diffusionDownload
To be verified
89Phase TransformationDownload
To be verified
90NucleationDownload
To be verified
91Nucleation and capillary riseDownload
To be verified
92Nucleation, growth and overall transformationDownload
To be verified
93Time-temperature-transformation (TTT) diagramDownload
To be verified
94Homogeneus and heterogeneous nucleationDownload
To be verified
95Heat treatment of steelsDownload
To be verified
96TTT diagram of Eutectoid SteelsDownload
To be verified
97Quenching and martensiteDownload
To be verified
98Austempering and bainiteDownload
To be verified
99TemperingDownload
To be verified
100Residual stresses and Quench cracksDownload
To be verified
101Marquenching and martemperingDownload
To be verified
102TTT diagram of hypoeutectoid and hypereutectoid steelsDownload
To be verified
103TTT diagram of alloy steelDownload
To be verified
104hardenability of steelsDownload
To be verified
105Glass CeramicsDownload
To be verified
106Tensile testDownload
To be verified
107Plastic deformation and crystal structureDownload
To be verified
108Shape changeDownload
To be verified
109SlipDownload
To be verified
110Resolved shear stressDownload
To be verified
111CRSSDownload
To be verified
112Schmid's lawDownload
To be verified
113CRSS:Theory vs experimentDownload
To be verified
114Why is experimental CRSS less than theoretical CRSSDownload
To be verified
115Strengthening mechaniksmsDownload
To be verified
116Dislocation densityDownload
To be verified
117Frank-Read sourceDownload
To be verified
118strain hardeningDownload
To be verified
119Dislocation interaction leading to strain hardening IDownload
To be verified
120Dislocation interaction leading to strain hardening IIDownload
To be verified
121Solid solution hardeningDownload
To be verified
122Grain size hardeningDownload
To be verified
123Age hardening IDownload
To be verified
124Age hardening IIDownload
To be verified
125Metastable precipitatesDownload
To be verified
126Annealing of cold-worked metalsDownload
To be verified
127RecoveryDownload
To be verified
128RecrystallizationDownload
To be verified
129Grain GrowthDownload
To be verified
130True stress and true strainDownload
To be verified
131CreepDownload
To be verified
132Effect of stress and temperature on creepDownload
To be verified
133Creep MechanismsDownload
To be verified
134CompositesDownload
To be verified
135Isostrain modulusDownload
To be verified
136Isostress modulusDownload
To be verified
137FractureDownload
To be verified
138Ductile and Brittle FractureDownload
To be verified
139Role of crack sizeDownload
To be verified
140Griffith's CriterionDownload
To be verified
141Stress ConcentrationDownload
To be verified
142Ductile to brittle transitionDownload
To be verified
143Enhancing fracture resistanceDownload
To be verified
144Toughening of glass: TemperingDownload
To be verified
145Toughening of glass: Ion-ExchangeDownload
To be verified
146FatigueDownload
To be verified
147Sub-Critical crack growthDownload
To be verified


Sl.No Language Book link
1EnglishNot Available
2BengaliNot Available
3GujaratiNot Available
4HindiNot Available
5KannadaNot Available
6MalayalamNot Available
7MarathiNot Available
8TamilNot Available
9TeluguNot Available