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SOLID MECHANICS

  • Solid mechanics
  • Branch of mechanics concerned with solid materials and their behaviors

    Solid mechanics (also known as mechanics of solids) is the branch of continuum mechanics that studies the behavior of solid materials, especially their

    Solid mechanics

    Solid_mechanics

  • Elasticity (physics)
  • Physical property when materials or objects return to original shape after deformation

    In continuum mechanics and materials science, elasticity is the ability of a body to resist a distorting influence and to return to its original size

    Elasticity (physics)

    Elasticity_(physics)

  • Mechanics
  • Science concerned with physical bodies subjected to forces or displacements

    machinery, parts of solids, parts of fluids (gases and liquids), etc. Other distinctions between the various sub-disciplines of mechanics concern the nature

    Mechanics

    Mechanics

    Mechanics

  • Contact mechanics
  • Study of the deformation of solids that touch each other

    Contact mechanics is the study of the deformation of solids that touch each other at one or more points. A central distinction in contact mechanics is between

    Contact mechanics

    Contact mechanics

    Contact_mechanics

  • Fluid mechanics
  • Branch of physics

    Fluid mechanics is the branch of physics concerned with the mechanics of fluids (liquids, gases, and plasmas) and the forces on them. Originally applied

    Fluid mechanics

    Fluid_mechanics

  • Applied mechanics
  • Practical application of mechanics

    shape), solid mechanics (mechanics of deformable macroscopic solids, including both elastic and plastic deformation), and fluid mechanics (mechanics of macroscopic

    Applied mechanics

    Applied_mechanics

  • Smoothed-particle hydrodynamics
  • Method of hydrodynamics simulation

    a computational method used for simulating the mechanics of continuum media, such as solid mechanics and fluid flows. It was developed by Gingold and

    Smoothed-particle hydrodynamics

    Smoothed-particle hydrodynamics

    Smoothed-particle_hydrodynamics

  • Solid-state physics
  • Branch of physics focused on matter in the solid state

    Solid-state physics is the study of rigid matter, or solids, through methods such as solid-state chemistry, quantum mechanics, crystallography, electromagnetism

    Solid-state physics

    Solid-state_physics

  • Continuum mechanics
  • Branch of physics which studies the behavior of materials modeled as continuous media

    expressed in constitutive relationships. Continuum mechanics treats the physical properties of solids and fluids independently of any particular coordinate

    Continuum mechanics

    Continuum_mechanics

  • Poynting effect
  • effects are named after John Henry Poynting, an English physicist. In solid mechanics, the Poynting effect is a finite strain theory effect observed when

    Poynting effect

    Poynting_effect

  • Solid
  • State of matter

    hardness. Solid mechanics is the study of the behavior of solid matter under external actions such as external forces and temperature changes. A solid does

    Solid

    Solid

    Solid

  • Shear flow
  • Flow induced by force in a fluid

    In solid mechanics, shear flow is the shear stress over a distance in a thin-walled structure. In fluid dynamics, shear flow is the flow induced by a

    Shear flow

    Shear_flow

  • Fracture mechanics
  • Study of propagation of cracks in materials

    mechanics is the field of mechanics concerned with the study of the propagation of cracks in materials. It uses methods of analytical solid mechanics

    Fracture mechanics

    Fracture mechanics

    Fracture_mechanics

  • Strain (mechanics)
  • Relative deformation of a physical body

    In mechanics, strain is defined as relative deformation, compared to a reference position configuration. Different equivalent choices may be made for

    Strain (mechanics)

    Strain_(mechanics)

  • Journal of the Mechanics and Physics of Solids
  • Academic journal

    The Journal of the Mechanics and Physics of Solids is a monthly peer-reviewed scientific journal covering research, theory, and practice concerning the

    Journal of the Mechanics and Physics of Solids

    Journal_of_the_Mechanics_and_Physics_of_Solids

  • Stress (mechanics)
  • Physical quantity that expresses internal forces in a continuous material

    In continuum mechanics, stress is a physical quantity that describes forces present during deformation. For example, an object being pulled apart, such

    Stress (mechanics)

    Stress (mechanics)

    Stress_(mechanics)

  • Spallation
  • Physical process

    ejected from a body due to impact or stress. In the context of impact mechanics it describes ejection of material from a target during impact by a projectile

    Spallation

    Spallation

    Spallation

  • Computational mechanics
  • Application of mechanics using computational methods

    computational solid mechanics are some of the many specializations within CM. The areas of mathematics most related to computational mechanics are partial

    Computational mechanics

    Computational_mechanics

  • Frictional contact mechanics
  • Study of the deformation of bodies in the presence of frictional effects

    Contact mechanics is the study of the deformation of solids that touch each other at one or more points. This can be divided into compressive and adhesive

    Frictional contact mechanics

    Frictional_contact_mechanics

  • SolidWorks
  • Desktop software for 3D modeling

    SolidWorks (stylized as SOLIDWORKS, officially rebranded as SOLIDWORKS Design in 2026) is a brand of software used for solid modeling computer-aided design

    SolidWorks

    SolidWorks

  • Similitude
  • Concept applicable to the testing of engineering models

    It is also the primary theory behind many textbook formulas in fluid mechanics. The concept of similitude is strongly tied to dimensional analysis. Engineering

    Similitude

    Similitude

    Similitude

  • Mooney–Rivlin solid
  • Hyperelastic material model

    In continuum mechanics, a Mooney–Rivlin solid is a hyperelastic material model where the strain energy density function W {\displaystyle W\,} is a linear

    Mooney–Rivlin solid

    Mooney–Rivlin_solid

  • Lamé parameters
  • Material property in strain-stress relationship

    In continuum mechanics, Lamé parameters (also called the Lamé coefficients, Lamé constants or Lamé moduli) are two material-dependent quantities denoted

    Lamé parameters

    Lamé_parameters

  • Huajian Gao
  • Chinese–American mechanician (born 1963)

    mechanician who is widely known for his contributions to the field of solid mechanics, particularly on the micro- and nanomechanics of thin films, hierarchically

    Huajian Gao

    Huajian Gao

    Huajian_Gao

  • Section modulus
  • Geometric property of a structural member

    In solid mechanics and structural engineering, section modulus is a geometric property of a given cross-section used in the design of beams or flexural

    Section modulus

    Section_modulus

  • Tensor derivative (continuum mechanics)
  • respect to second-order tensors are of considerable use in continuum mechanics. These derivatives are used in the theories of nonlinear elasticity and

    Tensor derivative (continuum mechanics)

    Tensor_derivative_(continuum_mechanics)

  • Torsion (mechanics)
  • Twisting of an object due to an applied torque

    In the field of solid mechanics, torsion is the twisting of an object due to an applied torque. Torsion could be defined as strain or angular deformation

    Torsion (mechanics)

    Torsion (mechanics)

    Torsion_(mechanics)

  • Strength of materials
  • Inc., 1961, ISBN 0-486-60755-0. Drucker, D.C. Introduction to Mechanics of Deformable Solids. McGraw-Hill, 1967. Gordon, J.E. The New Science of Strong Materials

    Strength of materials

    Strength_of_materials

  • Neo-Hookean solid
  • Hyperelastic material model

    Mathematics and Mechanics of Solids, 20(2), 157–182. [1] "Abaqus (Version 6.8) Theory Manual". Strain energy density function Mooney-Rivlin solid Finite strain

    Neo-Hookean solid

    Neo-Hookean_solid

  • Soil mechanics
  • Branch of soil physics and applied mechanics that describes the behavior of soils

    mechanics is a branch of soil physics and applied mechanics that describes the behavior of soils. It differs from fluid mechanics and solid mechanics

    Soil mechanics

    Soil mechanics

    Soil_mechanics

  • Structural fracture mechanics
  • Field of structural engineering

    several failed or damaged components. It uses methods of analytical solid mechanics, structural engineering, safety engineering, probability theory, and

    Structural fracture mechanics

    Structural fracture mechanics

    Structural_fracture_mechanics

  • John W. Hutchinson
  • Scholar in the field of applied mechanics

    and Applied Sciences at Harvard University. He works in the field of solid mechanics concerned with a broad range of problems in structures and engineering

    John W. Hutchinson

    John_W._Hutchinson

  • Material point method
  • Numerical technique to simulate behavior of continuous substances

    applications comprises problems in solid mechanics. The PIC method has been used to simulate a wide range of fluid-solid interactions, including sea ice

    Material point method

    Material_point_method

  • Mathematics & Mechanics of Solids
  • Academic journal

    Mathematics & Mechanics of Solids is a peer-reviewed academic journal that publishes papers in the fields of Mechanics and Mathematics. The journal's editor

    Mathematics & Mechanics of Solids

    Mathematics_&_Mechanics_of_Solids

  • Richard von Mises
  • Austrian physicist and mathematician (1883–1953)

    was an Austrian scientist and mathematician who worked on solid mechanics, fluid mechanics, aerodynamics, aeronautics, statistics and probability theory

    Richard von Mises

    Richard von Mises

    Richard_von_Mises

  • Energy principles in structural mechanics
  • means for formulating the governing equations of deformable bodies in solid mechanics. They can also be used for obtaining approximate solutions of fairly

    Energy principles in structural mechanics

    Energy_principles_in_structural_mechanics

  • Fluid
  • Liquid, gas, or other continuously deforming and flowing material

    branches of science. Definitions of solid vary as well, and depending on field, some substances can have both fluid and solid properties. Non-Newtonian fluids

    Fluid

    Fluid

  • Tangent modulus
  • Slope of the stress-strain curve in solid mechanics

    In solid mechanics, the tangent modulus is the slope of the stress–strain curve at any specified stress or strain. Below the proportional limit (the limit

    Tangent modulus

    Tangent_modulus

  • Physics
  • Scientific field of study

    forces that affect it); mechanics may also be divided into solid mechanics and fluid mechanics (known together as continuum mechanics), the latter include

    Physics

    Physics

  • Structural mechanics
  • Higher Studying Field

    Structural mechanics or mechanics of structures is the computation of deformations, deflections, and internal forces or stresses (stress equivalents) within

    Structural mechanics

    Structural mechanics

    Structural_mechanics

  • Zhigang Suo
  • Chinese-born American scientist (born 1963)

    behavior of materials and structures. Suo received a B.S. degree in solid mechanics from Xi'an Jiaotong University in 1985 and a Ph.D. in mechanical engineering

    Zhigang Suo

    Zhigang_Suo

  • Rheology
  • Study of the flow of matter, primarily in a fluid state

    of matter, primarily in a fluid (liquid or gas) state, as well as "soft solids", which experience conditions under which they respond with plastic flow

    Rheology

    Rheology

  • Shear modulus
  • Ratio of shear stress to shear strain

    In solid mechanics, the shear modulus or modulus of rigidity, denoted by G, or sometimes S or μ, is a measure of the elastic shear stiffness of a material

    Shear modulus

    Shear modulus

    Shear_modulus

  • Von Mises yield criterion
  • Failure Theory in continuum mechanics

    In continuum mechanics, the maximum distortion energy criterion (also von Mises yield criterion) states that yielding of a ductile material begins when

    Von Mises yield criterion

    Von_Mises_yield_criterion

  • Hanqing Jiang
  • Scientist of Solid Mechanics

    Hanqing Jiang (Chinese: 姜汉卿; born in 1975) is a researcher in solid mechanics. He is Chair Professor of Mechanical Engineering at Westlake University

    Hanqing Jiang

    Hanqing Jiang

    Hanqing_Jiang

  • Plasticity (physics)
  • Non-reversible deformation of a solid material in response to applied forces

    theory. Dover. ISBN 978-0-486-46290-5. Bigoni, Davide (2012). Nonlinear Solid Mechanics: Bifurcation Theory and Material Instability. Cambridge University

    Plasticity (physics)

    Plasticity (physics)

    Plasticity_(physics)

  • List of engineering journals and magazines
  • Journal of Fluid Mechanics International Journal of Fracture Acta Geotechnica Engineering Geology International Journal of Rock Mechanics and Mining Sciences

    List of engineering journals and magazines

    List_of_engineering_journals_and_magazines

  • Statics
  • Branch of mechanics concerned with balance of forces in nonmoving systems

    Statics is the branch of classical mechanics that is concerned with the analysis of force and torque acting on a physical system that does not experience

    Statics

    Statics

  • Theoretical strength of a solid
  • mechanical properties. Strength of materials Fracture mechanics Solid mechanics Stress (mechanics) Ultimate tensile strength Fracture Creep (deformation)

    Theoretical strength of a solid

    Theoretical_strength_of_a_solid

  • Finite strain theory
  • Mathematical model for describing material deformation under stress

    In continuum mechanics, the finite strain theory—also called large strain theory, or large deformation theory—deals with deformations in which strains

    Finite strain theory

    Finite_strain_theory

  • Aerospace engineering
  • Branch of engineering

    modified to improve their performance. Solid mechanics – Closely related to material science is solid mechanics which deals with stress and strain analysis

    Aerospace engineering

    Aerospace engineering

    Aerospace_engineering

  • Thomas Young (scientist)
  • English polymath (1773–1829)

    polymath who made notable contributions to the fields of vision, light, solid mechanics, energy, physiology, language, musical harmony, and Egyptology. He

    Thomas Young (scientist)

    Thomas Young (scientist)

    Thomas_Young_(scientist)

  • G. I. Taylor
  • British physicist and mathematician (1886–1975)

    this period that he did his most wide-ranging work on fluid mechanics and solid mechanics, including research on the deformation of crystalline materials

    G. I. Taylor

    G._I._Taylor

  • Hooke's law
  • Force needed to pull a spring grows linearly with distance

    Spring system Simple harmonic motion of a mass on a spring Sine wave Solid mechanics Spring pendulum The anagram was given in alphabetical order, ceiiinosssttuv

    Hooke's law

    Hooke's law

    Hooke's_law

  • Micro-mechanics of failure
  • The theory of micro-mechanics of failure aims to explain the failure of continuous fiber reinforced composites by micro-scale analysis of stresses within

    Micro-mechanics of failure

    Micro-mechanics of failure

    Micro-mechanics_of_failure

  • Yield (engineering)
  • Phenomenon of deformation due to structural stress

    been found to be proportional to the strain hardening exponent. In solid mechanics, the yield point can be specified in terms of the three-dimensional

    Yield (engineering)

    Yield (engineering)

    Yield_(engineering)

  • International Union of Theoretical and Applied Mechanics
  • Scientific organization

    sponsors financially Symposia and Summer Schools in both fluid and solid mechanics. The aim of these events, of which a dozen are organized every year

    International Union of Theoretical and Applied Mechanics

    International_Union_of_Theoretical_and_Applied_Mechanics

  • Hydrostatics
  • Branch of fluid mechanics that studies fluids at rest

    Hydrostatics is the branch of fluid mechanics that studies fluids at hydrostatic equilibrium and "the pressure in a fluid or exerted by a fluid on an

    Hydrostatics

    Hydrostatics

    Hydrostatics

  • Hardness
  • Measure of a material's resistance to localized plastic deformation

    work hardening, solid solution strengthening, precipitation hardening, and martensitic transformation. In solid mechanics, solids generally have three

    Hardness

    Hardness

  • Finite point method
  • satisfactory accuracy and capabilities to deal with different fluid and solid mechanics problems. Similar to other meshfree methods for PDEs, the finite point

    Finite point method

    Finite_point_method

  • Polynomial hyperelastic model
  • {\displaystyle C_{01}=C_{11}=0} , the polynomial model reduces to the Neo-Hookean solid model. For a compressible Mooney–Rivlin material n = 1 , C 01 = C 2 , C

    Polynomial hyperelastic model

    Polynomial_hyperelastic_model

  • Mu (letter)
  • Twelfth letter of the Greek alphabet

    rotorcraft The pore water pressure in saturated soil The shear modulus in solid mechanics In particle physics: Elementary particles: muon and antimuon (μ− ,

    Mu (letter)

    Mu (letter)

    Mu_(letter)

  • Instability
  • Characterized by some of the outputs or internal states growing without bounds

    by the use of an external support system, like a brace, to alter body mechanics. The mechanical support provided by a brace provides cutaneous afferent

    Instability

    Instability

    Instability

  • Reinforced solid
  • Type of material in solid mechanics

    In solid mechanics, a reinforced solid is a brittle material that is reinforced by ductile bars or fibres. A common application is reinforced concrete

    Reinforced solid

    Reinforced solid

    Reinforced_solid

  • Energy release rate (fracture mechanics)
  • Concept in fracture mechanics

    In fracture mechanics, the energy release rate, G {\displaystyle G} , is the rate at which energy is transformed as a material undergoes fracture. Mathematically

    Energy release rate (fracture mechanics)

    Energy_release_rate_(fracture_mechanics)

  • Meshfree methods
  • Methods in numerical analysis not requiring knowledge of neighboring points

    presented in 1977. Libersky et al. were the first to apply SPH in solid mechanics. The main drawbacks of SPH are inaccurate results near boundaries and

    Meshfree methods

    Meshfree methods

    Meshfree_methods

  • Hot hardness
  • This classical mechanics–related article is a stub. You can help Wikipedia by adding missing information.

    Hot hardness

    Hot_hardness

  • Outline of academic disciplines
  • Academic fields of study or professions

    Quantum mechanics Relativistic mechanics Relativistic quantum mechanics Soil mechanics Solid mechanics Statistical mechanics Quantum statistical mechanics Mineral

    Outline of academic disciplines

    Outline of academic disciplines

    Outline_of_academic_disciplines

  • Acta Mechanica
  • Academic journal

    articles in the field of theoretical and applied mechanics, specifically in solid mechanics and fluid mechanics, published by Springer. The editor-in-chief

    Acta Mechanica

    Acta_Mechanica

  • Einstein solid
  • Model of a crystalline solid

    capacity of solids as predicted by the empirical Dulong–Petit law was required by classical mechanics, stating that the specific heat of solids should be

    Einstein solid

    Einstein_solid

  • Rayleigh wave
  • Type of surface acoustic wave which travels along the surface of solids

    In solid mechanics, Rayleigh waves are a type of surface acoustic wave that travel along the surface of solids. They can be produced in materials in many

    Rayleigh wave

    Rayleigh_wave

  • S wave
  • Type of elastic body wave

    In solid mechanics, S waves, secondary waves, or shear waves (sometimes called elastic S waves) are a type of elastic wave and are one of the two main

    S wave

    S wave

    S_wave

  • Cauchy stress tensor
  • Representation of mechanical stress at every point within a deformed 3D object

    In continuum mechanics, the Cauchy stress tensor (symbol ⁠ σ {\displaystyle {\boldsymbol {\sigma }}} ⁠, named after Augustin-Louis Cauchy), also called

    Cauchy stress tensor

    Cauchy stress tensor

    Cauchy_stress_tensor

  • Radius of gyration
  • Distance from center of mass to axis of rotation

    _{i=1}^{N}m_{i}}}}} See for example Goldstein, Herbert (1950), Classical Mechanics (1st ed.), Reading, Massachusetts: Addison-Wesley Publishing Company equation

    Radius of gyration

    Radius_of_gyration

  • Movable cellular automaton
  • Method in computational solid mechanics based on the discrete concept

    movable cellular automaton (MCA) method is a method in computational solid mechanics based on the discrete concept. It provides advantages both of classical

    Movable cellular automaton

    Movable_cellular_automaton

  • Rodney Hill
  • British mathematician (1921–2011)

    February 2011) was an applied mathematician and a former Professor of Mechanics of Solids at Gonville and Caius College, Cambridge. In 1953 he was appointed

    Rodney Hill

    Rodney_Hill

  • Ratcheting
  • Behavior in continuum mechanics

    In continuum mechanics, ratcheting, or ratchetting, also known as cyclic creep, is a behavior in which plastic deformation accumulates due to cyclic mechanical

    Ratcheting

    Ratcheting

  • CSM
  • Topics referred to by the same term

    science Computational solid mechanics, computer modeling of solid matter, typically with finite elements; See Solid mechanics Content storage management

    CSM

    CSM

  • Flow plasticity theory
  • Solid mechanics theory

    Flow plasticity is a solid mechanics theory that is used to describe the plastic behavior of materials. Flow plasticity theories are characterized by

    Flow plasticity theory

    Flow plasticity theory

    Flow_plasticity_theory

  • Drucker–Prager yield criterion
  • Concept in physics

    Mechanics, vol. 16, pp. 349–357. Cazacu, O.; Barlat, F. (2001), "Generalization of Drucker's yield criterion to orthotropy", Mathematics & Mechanics of

    Drucker–Prager yield criterion

    Drucker–Prager yield criterion

    Drucker–Prager_yield_criterion

  • Topology optimization
  • Mathematical method for optimizing material layout under given conditions

    Topological Design Optimization of Structures, Machines and Materials. Solid Mechanics and Its Applications. Vol. 137. Springer. pp. 229–238. doi:10.1007/1-4020-4752-5_23

    Topology optimization

    Topology_optimization

  • Stress concentration
  • Location in an object where stress is far greater than the surrounding region

    In solid mechanics, a stress concentration (also called a stress raiser or a stress riser or notch sensitivity) is a location in an object where the stress

    Stress concentration

    Stress concentration

    Stress_concentration

  • Fiber network mechanics
  • in random networks of non-identical beams". Journal of the Mechanics and Physics of Solids. 87: 38–50. Bibcode:2016JMPSo..87...38B. doi:10.1016/j.jmps

    Fiber network mechanics

    Fiber network mechanics

    Fiber_network_mechanics

  • Principle of normality
  • The Principle of normality in solid mechanics states that if a normal to the yield locus is constructed at the point of yielding, the strains that result

    Principle of normality

    Principle_of_normality

  • Deformation (physics)
  • Transformation of a body from a reference configuration to a current configuration

    In physics and continuum mechanics, deformation is the change in the shape or size of an object. It has dimension of length with SI unit of metre (m)

    Deformation (physics)

    Deformation (physics)

    Deformation_(physics)

  • Airy points
  • Support points minimising bending of beams

    Airy points (after George Biddell Airy) are used for precision measurement (metrology) to support a length standard in such a way as to minimise bending

    Airy points

    Airy_points

  • Mechanical engineering
  • Engineering discipline

    physics and chemistry) Statics and dynamics Strength of materials and solid mechanics Materials engineering, composites Thermodynamics, heat transfer, energy

    Mechanical engineering

    Mechanical engineering

    Mechanical_engineering

  • Manufacturing engineering
  • Branch of engineering

    equations, statistics and linear algebra) Mechanics (statics and dynamics) Solid mechanics Fluid mechanics Materials science Strength of materials Fluid

    Manufacturing engineering

    Manufacturing engineering

    Manufacturing_engineering

  • Arruda–Boyce model
  • In continuum mechanics, an Arruda–Boyce model is a hyperelastic constitutive model used to describe the mechanical behavior of rubber and other polymeric

    Arruda–Boyce model

    Arruda–Boyce_model

  • Plasma (physics)
  • State of matter

    well-known paper in 1879. Plasma is called the fourth state of matter after solid, liquid, and gas. It is a state of matter in which an ionized substance

    Plasma (physics)

    Plasma (physics)

    Plasma_(physics)

  • Liquid
  • State of matter

    usually close to that of a solid, and much higher than that of a gas. Liquids are a form of condensed matter alongside solids, and a form of fluid alongside

    Liquid

    Liquid

    Liquid

  • Lattice Boltzmann methods for solids
  • Class of computational solid dynamics methods

    Lattice Boltzmann methods for solids (LBMS) are a set of methods for solving partial differential equations (PDE) in solid mechanics. The methods use a discretization

    Lattice Boltzmann methods for solids

    Lattice Boltzmann methods for solids

    Lattice_Boltzmann_methods_for_solids

  • Material failure theory
  • Science of predicting if, when, and how a given material will fail under loading

    interdisciplinary field of materials science and solid mechanics which attempts to predict the conditions under which solid materials fail under the action of external

    Material failure theory

    Material_failure_theory

  • Quasistatic loading
  • In solid mechanics, quasistatic loading refers to loading where inertial effects are negligible. In other words, time and inertial force are irrelevant

    Quasistatic loading

    Quasistatic_loading

  • Final Fantasy XIV
  • 2013 video game

    relaunched game released to largely positive reception; critics praised its solid mechanics and progression, and commended Yoshida for an unexpected recovery.

    Final Fantasy XIV

    Final_Fantasy_XIV

  • Euler–Bernoulli beam theory
  • Method for load calculation in construction

    differential equation. The three-point bending test is a classical experiment in mechanics. It represents the case of a beam resting on two roller supports and subjected

    Euler–Bernoulli beam theory

    Euler–Bernoulli beam theory

    Euler–Bernoulli_beam_theory

  • Non-Newtonian fluid
  • Type of fluid

    In physical chemistry and fluid mechanics, a non-Newtonian fluid is a fluid that does not follow Newton's law of viscosity; that is, it has variable viscosity

    Non-Newtonian fluid

    Non-Newtonian_fluid

  • Shear force
  • Coplanar forces acting on the same body in opposite directions

    In solid mechanics, shearing forces are unaligned forces acting on one part of a body in a specific direction, and another part of the body in the opposite

    Shear force

    Shear force

    Shear_force

  • Poisson's ratio
  • Measure of material deformation perpendicular to loading

    In materials science and solid mechanics, Poisson's ratio (symbol: ν (nu)) is a measure of the Poisson effect, the deformation (expansion or contraction)

    Poisson's ratio

    Poisson's ratio

    Poisson's_ratio

  • Ronald Rivlin
  • Hayes, M. A. (2006), "In Memory of Ronald S. Rivlin", Mathematics & Mechanics of Solids, 11 (2): 103, doi:10.1177/1081286506063397, S2CID 122314423 A. N

    Ronald Rivlin

    Ronald_Rivlin

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Online names & meanings

  • Kelleigh
  • Girl/Female

    Gaelic Irish

    Kelleigh

    Lively; aggressive.

  • Frodine
  • Girl/Female

    Teutonic

    Frodine

    Sage friend.

  • Sriha
  • Girl/Female

    Indian, Telugu

    Sriha

    Flower

  • Bozi
  • Girl/Female

    Hebrew

    Bozi

    Devoted to God.

  • Murtada
  • Boy/Male

    Indian

    Murtada

    Satisfied, Contented, Pleased, Chosen

  • Brenndah
  • Girl/Female

    British, English, Irish

    Brenndah

    Burning; Stinking Hair

  • Merom
  • Girl/Female

    Biblical

    Merom

    Eminences, elevations.

  • SACHIE
  • Male

    English

    SACHIE

    Pet form of English Sacheverell, SACHIE means "roe-buck leap."

  • JASMINE
  • Female

    English

    JASMINE

    Variant spelling of English Jasmin, JASMINE means "jasmine flower," a plant in the olive family.

  • Ayati
  • Boy/Male

    Indian, Sanskrit

    Ayati

    Royal; The Unsuccessful Transcendentalist

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Other words and meanings similar to

SOLID MECHANICS

AI search in online dictionary sources & meanings containing SOLID MECHANICS

SOLID MECHANICS

  • Substantive
  • a.

    Enduring; solid; firm; substantial.

  • Solid
  • a.

    Fig.: Worthy of credit, trust, or esteem; substantial, as opposed to frivolous or fallacious; weighty; firm; strong; valid; just; genuine.

  • Solid
  • a.

    United; without division; unanimous; as, the delegation is solid for a candidate.

  • Solid
  • a.

    Of a fleshy, uniform, undivided substance, as a bulb or root; not spongy or hollow within, as a stem.

  • Rib
  • n.

    Solid coal on the side of a gallery; solid ore in a vein.

  • Strong
  • superl.

    Solid; nourishing; as, strong meat.

  • Solid
  • a.

    Sound; not weakly; as, a solid constitution of body.

  • Solid
  • a.

    Not hollow; full of matter; as, a solid globe or cone, as distinguished from a hollow one; not spongy; dense; hence, sometimes, heavy.

  • Solid
  • a.

    Impenetrable; resisting or excluding any other material particle or atom from any given portion of space; -- applied to the supposed ultimate particles of matter.

  • Corpulent
  • a.

    Solid; gross; opaque.

  • Solid
  • a.

    Firm; compact; strong; stable; unyielding; as, a solid pier; a solid pile; a solid wall.

  • Solid
  • a.

    Applied to a compound word whose parts are closely united and form an unbroken word; -- opposed to hyphened.

  • Semisolid
  • a.

    Partially solid.

  • Solid
  • a.

    Having all the geometrical dimensions; cubic; as, a solid foot contains 1,728 solid inches.

  • Solid
  • a.

    Having the constituent parts so compact, or so firmly adhering, as to resist the impression or penetration of other bodies; having a fixed form; hard; firm; compact; -- opposed to fluid and liquid or to plastic, like clay, or to incompact, like sand.

  • Solidify
  • v. i.

    To become solid; to harden.

  • Solid
  • a.

    Not having the lines separated by leads; not open.

  • Stereography
  • n.

    The art of delineating the forms of solid bodies on a plane; a branch of solid geometry which shows the construction of all solids which are regularly defined.

  • Solid
  • n.

    A magnitude which has length, breadth, and thickness; a part of space bounded on all sides.

  • Solid
  • n.

    A substance that is held in a fixed form by cohesion among its particles; a substance not fluid.