Skip to main content

Humanities, Social Science and Language


Digital Products


Connect®
Course management and student learning tools backed by great support.

McGraw Hill GO
Greenlight learning with the new eBook+

ALEKS®
Personalize learning and assessment

ALEKS® Placement, Preparation, and Learning
Achieve accurate math placement

SIMnet
Ignite mastery of MS Office and IT skills

McGraw Hill eBook & ReadAnywhere App
Get learning that fits anytime, anywhere

Sharpen: Study App
A reliable study app for students

Virtual Labs
Flexible, realistic science simulations

AI Reader
Encourage Discovery, Boost Understanding

Services


Affordable Access
Reduce costs and increase success

Learning Management System Integration
Log in and sync up

Content Collections powered by Create®
Curate and deliver your ideal content

Custom Courseware Solutions
Teach your course your way

Education for All
Let’s build a future where every student has a chance to succeed

Business Program
Explore business learning solutions & resources

Professional Services
Collaborate to optimize outcomes

Remote Proctoring
Validate online exams even offsite

Institutional Solutions
Increase engagement, lower costs, and improve access for your students

Evergreen
Updated, relevant materials—without the hassle.

Support


General Help & Support Info
Customer Service & Tech Support contact information

Online Technical Support Center
FAQs, articles, chat, email or phone support

Support At Every Step
Instructor tools, training and resources for ALEKS, Connect & SIMnet

Instructor Sample Requests
Get step by step instructions for requesting an evaluation, exam, or desk copy

Platform System Check
System status in real time

Applied Creep Mechanics

ISBN10: 0071828699 | ISBN13: 9780071828697

Applied Creep Mechanics
ISBN10: 0071828699
ISBN13: 9780071828697
By Thomas Hyde, Wei Sun and Christopher Hyde

Ch 1. Introduction
Ch 2. Relevant Material Behavior & Solid Mechanics Background
Ch 3. Material Behavior Models for Creep Analysis
Ch 4. Stationary-state Creep of Single Material, Uncracked Components
Ch 5. Inferences from Stationary-State Analyses of Single Material, Uncracked Components
Ch 6. Stationary-State Creep of Multi-Material, Uncracked Components
Ch 7. Application of the Finite Method to the Creep of Single Material Components
Ch 8. Creep of Welded Components
Ch 9. Creep of Notched Components
Ch 10. Creep of Cracked Components
Ch 11. Small Specimen Creep Testing
A1: Basis of the Finite Element Method
A2: Derivation of Lamés Equations
A3: The Complimentary Energy Method
A4: Indicial Notation
A5: Determination of the Reference Parameters, η and β, using the Finite Element Method

Need support?   We're here to help - Get real-world support and resources every step of the way.

Top