LF logo
by learnformula
search
Log in
search
Courses/Engineering/Wood Constructions

Mechanical Properties of Wood

Intended Audience: for this course are energy, mechanical, electrical, construction, and civil engineers. However, this course could appeal to engineers of other disciplines as well.

Created byMark Rossow, PhD, PE (retired)
4.5
(28 reviews)
BeginnerUpdated May 3, 2022
Mechanical Properties of Wood

What You'll Learn

check_circleAnalyze the orthotropic nature of wood and differentiate its mechanical behavior along the longitudinal, radial, and tangential axes.
check_circleEvaluate the impact of moisture content, density, and natural defects on the structural integrity and strength of timber.
check_circleCalculate key mechanical parameters, including the modulus of elasticity, flexural strength, and compressive strength of wood specimens.
check_circleCompare standardized testing methods used to determine the tensile, compressive, and shear properties of wood.
check_circleSelect appropriate wood species and grades for specific structural engineering applications based on their unique mechanical profiles.

About This Course

The mechanical properties presented in this course were obtained from tests of small pieces of wood termed "clear" and "straight grained" because they did not contain characteristics such as knots, cross grain, checks, and splits.

Many of the mechanical properties of wood tabulated were derived from extensive sampling and analysis procedures. These properties are represented as the average mechanical properties of the species. Variability, or variation in properties, is common to all materials. Because wood is a natural material and the tree is subject to many constantly changing influences (such as moisture, soil conditions, and growing space), wood properties vary considerably, even in clear material. This course provides information, where possible, on the nature and magnitude of variability in properties.

Also included is a discussion of the effect of growth features, such as knots and slope of grain, on clear wood properties. The effects of manufacturing and service environments on mechanical properties are discussed, and their effects on clear wood and material containing growth features are compared.

Topics: • Orthotropic Nature of Wood • Elastic Properties, Modulus of Elasticity, „Poisson's Ratio, Modulus of Rigidity • Strength and Vibration Properties • Common and Less Common Properties • Mechanical Properties of Clear Straight-Grained Wood • Natural Characteristics Affecting Mechanical Properties • Specific Gravity • Knots, Slope of Grain, Annual Ring Orientation, Pitch Pockets, Bird Pecks • Reaction Wood, and Juvenile Wood • Compression Failures • Properties of Timber From Dead Trees • Effects of Manufacturing and Service Environments • Moisture Content , Temperature, Time Under Load, Aging • Exposure to Chemicals, Chemical Treatment • Nuclear Radiation • Mold and Stain Fungi, Decay, Insect Damage

Your Instructor

Mark Rossow, PhD, PE (retired)
Mark Rossow, PhD, PE (retired)

Civil Engneering faculty member for 27 years

menu_book133 courses
star3,887 reviews

Dr. Rossow is a graduate of the University of Michigan with B.S., M.S., and Ph.D. degrees. He is a licensed Professional Engineer in the State of Illinois. He taught civil engineering for over 35 years, including six years at Washington University in St. Louis and 29 years at Southern Illinois University Edwardsville, where he was the Chair of the Civil Engineering Department for ten years. His areas of expertise are in civil engineering and mechanics. He has consulted for various organizations, including government agencies and an international offshore drilling company. He has published numerous technical journal articles and technical reports for a variety of governmental agencies and private sector organizations. Mark P. Rossow, PE, PhD Licensed Professional Engineer in State of Illinois License No. 062.040560 Dr. Rossow is a graduate of the University of Michigan with B.S., M.S., and Ph.D. degrees. He taught civil engineering for over 35 years, including six years at Washington University in St. Louis and 29 years at Southern Illinois University Edwardsville, where he was the Chair of the Civil Engineering Department for ten years. His areas of expertise are in civil engineering and mechanics. He has consulted for various organizations, including government agencies and an international offshore drilling company. He has published many journal articles and technical reports.

Credit Information

What Students Are Saying

4.5
Student's Choice
28 reviews

Frequently Asked Questions

We are a registered provider with 327+ associations and regulatory bodies worldwide. We operate across 29 global markets including Canada, the US, Australia, and the UK. Every course page clearly displays its specific accreditations. Upon completion, you receive a professional certificate that can be validated online. Our certificates include all necessary accreditation details, credit hours, and completion dates, and are formatted specifically to meet the submission requirements of most global regulatory bodies.