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Downward loads tend to deflect the beam downwards. Mx = q x (L - x) / 2 (2) where. This diagram helps engineers determine the maximum shear force and its location, which are crucial in determining the design requirements for the element. You'll be greeted with a super easy to use results page that includes the following functionality: Download a customised selection of the above results in a formatted PDF report. HVAC Systems Calcs Electronics Instrumentation Per. CalQlata has taken the view that the strip (Timoshenko/Woinowsky-Krieger) technique is the more accurate and therefore supports the SHEETS calculator rather than the book. The ACI 318-19 provides a number of requirements regarding slab thickness, concrete cover, and reinforcement ratio which facilitate the design process. Think of it like a diving board. This beam deflection calculator will help you determine the maximum beam deflection of simply-supported and cantilever beams carrying simple load configurations. Select a Beam 7) Rectangular Plate , Simply supported, Concentrate load over small area 8) Rectangular Plate , Clamped, Concentrate load over small area 9) Circular Plate with Central Hole , Simply supported,Central Load 10) Circular Plate with Central Hole , Simply supported, Uniform Load Over Plate 11) Circular Plate with Central Hole , Clamped, Uniform Load Over Plate 12) Circular Plate with Central Hole ,Outer Edge Clampld, Uniform Load Over Plate, Calculation ReferenceMechanical Engineers Data Handbook Carvill Butterworth Hieneman Roarks Formulas for stress and strain Formulas for Stress, Strain, and Structural Matrice, US +1 617 5008224 Flat plate behavior: The plate deflects. ANNULUS PLATE DEFLECTION. It is able to calculate the reactions at supports for cantilever or simple beams. In terms of beam reaction forces, these are usually the resultant forces from the pinned, fixed or roller supports. Reaction forces are the supporting forces that exist in a response to applied loads. The calculator below can be used to calculate . All rights reservedDisclaimer | Design & Manufacturability The distributed loads can be arranged so that they are uniformly distributed loads (UDL), triangular distributed loads or trapezoidal distributed loads. SkyCiv Free Beam Calculator generates the Reactions, Shear Force Diagrams (SFD), Bending Moment Diagrams (BMD), deflection, and stress of a cantilever beam or simply supported beam. Gears Design Engineering This calculator computes the displacement of a simply-supported rectangular plate under a point load. . The boundary conditions for the clamped boundaries are w = 0 and w = 0, where w is the derivative of w in a direction normal to the boundary.. Per. (14 plate arrangements are included) Purpose of Calculation by mobile, EU +44 113 8152220 Use it to help you design To help you find your way around this helpful and comprehensive guide to Reactions, Deflection and Shear and Moment Diagrams, we've put together a table of contents: Welcome to our Free Beam Calculator! For plates loaded with uniformly distributed normal force, the maximum stress and maximum deflection can be represented by simple relations by the use of a series of constants which depend upon the plate geometry and loading. This calculation deals with the deflection, stress and variation of forces in the loaded flat plates. Applications and Design RA + RB = 50 kN, Mz = 0 Choose from a wide variety of steel and wood shapes. Per. Engineering Analysis Menu. In this section the classic example of a simply supported plate subjected to a uniform transverse pressure will . StructX has adopted this way of drawing bending moments throughout. The longer the beam gets, the more it can bend and the greater the deflection. HVAC Systems Calcs The maximum bending moment at the middle is M x = M y = 0.0479p z L 2 ; this is 38% of the bending moment of a simply supported beam (0.125p z L 2 ). A _P 7^/(1<r2) p being the uniform load, h one-half the thickness of the plate, E and a elastic constants of the material of the plate. I'll rate. The cross-section remains planar and perpendicular to the longitudinal axis during bending. SMALL DEFLECTION 3 EGDES SIMPLY SUPPORTED ONE EDGE FREE WITH UNIFORMLY DISTRIBUTED LOADED PLATE; Calculation Reference Roark Pilkey Tomoshenko Calculation Preview. Stress max = 0.175966540277 MPa 0.176 MPa relationship between beam deflection and applied external forces. Alternatively, use our 'Import from Design Code' function to automatically assign the loads you created to the specific load combinations prescribed by your region's Design Code! Completing a task step-by-step can help ensure that it is done correctly and efficiently. Hardware, Imperial, Inch Dik . Solve Now! Use f'c=27 MPa and fy=270 MPa. Optimize your designs, reduce machining time, and lower your costs. Plastics Synthetics List Of Calcs 1) Circular Plate ,Simply supported under uniform distributed load p 2) Circular Plate ,Clamped under uniform distributed load p 3) Circular Plate ,Simply Supported under central Force P 4) Circular Plate ,Clamped under central Force P 5) Rectangular Plate , Simply supported, Uniform Load . Friction Formulas Apps 'x,y' co-ordinate plots for pressure loading condition, FFSS Table number is represented by the character '' and case number is represented by the symbol '#'. Economics Engineering We also highly recommend specifying the different load cases each load corresponds. The deflection of the beam can be calculated using the equation, taken from SkyCiv's Beam Deflection Formula page. and E is the modulus of elasticity, is Poisson's ratio, h is the plate thickness, w is the transverse deflection of the plate, and p is the pressure load.. Civil Engineering Simply supported rectangular plate with point load. Per. How to calculate the maximum beam deflection, Understanding the beam deflection formulas. Flat Rectangular Plate, Three Edges Fixed, One Edge (a) Free Loading Uniformly decreasing from fixed edge to zero at 1/3b Equation and Calculator. Videos Design Manufacture The amount of deflection can be determined by solving the differential equations of an appropriate plate theory. I also recommend Mitcalc.com see link 1 Strength of Materials For a simply supported plate the deflection must satisfy the following boundary conditions on the plate boundary (6.82a) (6.82b) where is the bending moment in the direction normal to the boundary and denotes the tangential to the boundary direction. This calculation deals with the deflection, stress and variation of forces in the loaded flat plates. Beam deflection is one of the serviceability criteria that engineers consider when designing structures. We call the amount of beam bending beam deflection. To be conservative, you could design your plate as a simply-supported beam. and bottom surfaces) remains unstressed; at other points there are such that all of the edges are in contact during the the loading condition. The plates are all assumed to be steel with a poisson's ratio of 0,3. Per. As a constantly evolving tech company, we're committed to innovating and challenging existing workflows to save engineers time in their work processes and designs. Simply supported rectangular plate with point load. The formulas in this calculator only focus on either the downward or upward directions for the point load and distributed loads. Use the 'Self Weight' toggle button on the top right of the calculator to turn on or off a consideration of self weight. Being able to add section shapes and materials, this makes it useful as a wood beam calculator or as a steel beam calculator for lvl beam or i beam design. In this beam deflection calculator, you'll learn about the different beam deflection formulas used to calculate simply-supported beam deflections and cantilever beam deflections. The loading scenario for the simply supported rectangular plates assume that the upper edges of the loaded surface are restrained from lifting A very simple set of calculations to establish the maximum stress and deflection in flat plates under a variety of support and loading conditions. 1. Select a beam and enter dimensions to get started. Thermodynamics Beam deflection is when a beam bends or sags under its own weight or due to applied loads. MATERIALS PROPERTIES OTHER CALCULATORS Per. stress and deflection in flat plates under a variety of The boundary conditions are mixed so the moment-curvature relation must be used (6.2.12) M r = D [ d 2 w d r 2 + 1 r d w d r] Lubrication Data Apps by Skype or 0 = -50 kN (-5m) + RB(-10m) + RA(0) Sum up the forces in the horizontal direction. Given the dimensions of this seat, we can then calculate its moment of inertia, similar to our example above. The deflection of the beam can be calculated using the equation, taken from SkyCiv's. SkyCiv's above reaction forces beam calculator is capable of quickly and easily calculating the support reaction forces of your cantilever or simply supported beams. Show solution. That's beam deflection in action! Electric Motor Alternators You will generally need to start by calculating the reaction forces (shown in the above segment) before plotting the shear force diagram. Roarks Formulas for Stress and Strain, Parallelogram plate (skew slab) shorter edges simply supported, longer edges free with uniform loading over entire plate Stress and Deflection Equation and Calculator. Buckling of Rectangular Plate. Alternatively, we also include a button to use SkyCiv's Section Builder Tool: This opens a new menu with our fully integrated Section Builder, allowing you to access preset Database Shapes we've included from all around the world. We can define the stiffness of the beam by multiplying the beam's modulus of elasticity, E, by its moment of inertia, I. Hardware, Metric, ISO Figure 810 Approximate resultant applied force and reaction forces on the plate The deflection plot in Figure 86 shows that the deflection curvature . This is because excessive deflection can result in unwanted aesthetic effects, such as sagging floors, cracking of finishes, or discomfort for the users. The centroidal plane or neutral surface is subjected to zero axial stress and does not undergo any change in length. If the radial location of loading is. The equations are also only reasonably accurate if the thickness is less than 10% of the Figure out math. Excel App. very convenient initial estimates of plates strengths to This difference in the moment of inertia values is the reason why we see beams in this configuration wherein their height is greater than their width. Simply supported beam calculator Other Calculators Fixed Beam Calculator Propped Cantilever Calculator Simply Supported beam Calculator Cantilever Beam Calculator Manufacturing Processes The response to strain is one dimensional stress in the direction of bending. All rights reservedDisclaimer | Straight lines in the plate Use the 'Analysis' tab to view various criteria, such as: Use the 'Design' tab to instantly check the beam against your region's specific code requirements! File Version: 1.3. Roarks Formulas for Stress and Strain Formulas for flat plates with straight boundaries and constant thickness. In the 1980s, retrofitting RC bridges [1] and columns [2] with steel plates or steel jackets was acceptable and commonly used, particularly in the United State and Europe. Self-weight of the plate has been ignored and should be taken into account in practice. | Contact, Home you're not that were originally vertical remain straight but become inclined; Loads, on the other hand, affect the beam's deflection in two ways: the direction of the deflection and the magnitude of the deflection. Determine the safe concentrated live load that can be placed at midspan of the beam. Beams are the extended members of a structure that carry the loads brought by the horizontal slabs of the structures like solid concrete floors, wooden floor joist systems, and roofs. Submitted By: Rahul (rahulmenon) Submitted On: 14 Apr 2010. All loads and moments can be of both upwards or downward direction in magnitude, which should be able to account for most common beam analysis situations. Note that as you make adjustments to the part number or profile series, length or load, simply click the "Calculate Deflection" to view updated information. Therefore, bending stress is sigma = M*c/Iyy = 1.5*P*L/ (b*t^2), where P = 130 000 N, b = plate width (mm), t = plate thickness (mm), and L = distance between centre points of anchor bolts (mm). Pressure Vessel Per. Rectangular Flat Plate , uniform load ,edge clamped. Beam Supported at Both Ends - Uniform Continuous Distributed Load. AISC Steel and NDS Wood Design LRFD and ASD Design Checks and Load Combinations. This beam calculator is designed to help you calculate . Rectangular Flat Plate , concentrated load at centre, edge clamped, Circular Flat Plate with central hole , concentrated load at hole, simply supported at outer edge, Circular Flat Plate with central hole , uniform load over ring, simply supported at outer edge, Circular Flat Plate with central hole , Concentrated load at hole, clamped at outer edge, Circular Flat Plate with central hole , uniform load over ring, clamped at outer edge, Circular Flat Plate with guided central hole , uniform distributed load, simply supported at outer edge, Circular Flat Plate with guided central hole , uniform distributed load, fixed at outer edge. Training Online Engineering, Flat Plates Stress, Deflection Equations and Calculators, Beams Deflection, Stress and Loading Equations and Calculators, Theoretical Mechanics, Kinematics, Dynamics and Static's, Section Inertia Properties Equations Calculators, Engineering Materials Specifications Resources, Circular plate, uniform load, edges simply supported equation and calculator, Circular plate, uniform load, edges clamped equation and calculator, Circular Plate Concentrated Load Floating Equation and Calculator, Circular Plate Concentrated Load Edges Fixed Support Equation and Calculator, Rectangular plate, uniform load, simply supported equations and calculator, Flat Rectangular Plate with All Edges Simply Supported Stress and Deflection, Flat Rectangular Plate with All Edges Simply Supported Stress and Deflection with circular Load applied, Flat Rectangular Plate Uniform Loading over Central Rectangular Area Stress Equation and Calculator, Flat Rectangular Plate Uniformly Increasing Loading Along Length Stress and deflection Equation and Calculator, Flat Rectangular Plate Uniformly Increasing Loading Along Width Stress and deflection Equation and Calculator, Flat Rectangular Uniform over entire plate plus uniform tension or compression, Flat Rectangular Uniform over entire plate plus uniform over entire plate plus uniform tension, Flat Rectangular Plate; Three Edges Simply Supported, one Edge (b) Free Stress and Deflection With Uniform Force over Entire Plate Equation and Calculator, Flat Rectangular Plate; Three Edges Simply Supported, one Edge (b) Free Stress and Deflection With Uniformly increasing along the a side Equation and Calculator, Flat Rectangular Plate; Three Edges Simply Supported, one Edge Fixed Stress and Deflection With Uniformly increasing along the a side Equation and Calculator, Flat Rectangular Plate; Three Edges Simply Supported, one long Edge Fixed Stress and Deflection With Uniform Loading over entire plate Equation and Calculator, Flat Rectangular Plate; two long edges simply supported, two short edges fixed Uniform loading over entire plate Stress and Deflection Equation and Calculator, Flat Rectangular Plate; two long edges fixed, two short edges simply supported Uniform loading over entire plate Stress and Deflection Equation and Calculator, Flat Rectangular Plate; one edge fixed, opposite edge free, remaining edges simply supported Uniform loading over entire plate, Flat Rectangular Plate; one edge fixed, opposite edge free, remaining edges simply supported loading 2/3 of plate from fixed edge Stress and Deflection Equation and Calculator, Flat Rectangular Plate; one edge fixed, opposite edge free, remaining edges simply supported loading 1/3 of plate, Flat Rectangular Plate; one edge fixed, opposite edge free, remaining edges simply supported loading Uniformly decreasing from fixed edge to free edge, Flat Rectangular Plate; one edge fixed, opposite edge free, remaining edges simply supported loading Uniformly decreasing, Flat Rectangular Plate; one edge fixed, opposite edge free, remaining edges simply supported loading, Flat Rectangular Plate; one edge fixed, opposite edge free, remaining edges simply supported loading distributed line load, Flat Rectangular Plate; all edges fixed. other free tools: English Consider a simply supported beam of length L = 10m with a uniform load (force per unit length) of w = 5 kN/m acting on it. used in calculation, ro_prime (mm) =, Total load Beam Deflection and Stress Formula and Calculators The diagram shows the variation of the bending moment along the length of the beam and provides information about the distribution of the internal forces in the beam. The input for material can be changed to suite whatever material you wish to design. There are available on another page on our website called Bending Moment Formula. Rectangular Plate Calculator (deflection & stress) Unlike a disc ( circular plate ), where stresses and deflections are generally predictable owing to constant edge support, in a sheet (rectangular plate) - where edge supports vary - they are much less predictable. For convenience in discussion, it will be assumed further that the plane of the plate is horizontal. Engineering Standards 3. be carried out. at center of long side (N/mm) =, References: Roark The moment of inertia also varies depending on which axis the material is rotating along. Simply supported beam deflection calculator for point load, udl, uvl, trapezoidal, triangular load for deflection, slope, bending, fixed end moment and shear formula. You can choose from a selection of load types that can act on any length of beam you want. Any reliance you place on such information is therefore strictly at your own risk. kN, kPa), method of Wages, employment opportunities, and growth projections for STEM jobs. The series is given by 422 2 . The plate stiffness factor is (2.11) The mass per area is (2.12) The angular natural frequency is (2.13) The angular frequency is equivalent to 41.33 Hz. Loading a section is instant, and users can even make the most of powerful search functionality to help you find what you're looking for. Deflection interpolation - Interpolate the deflection v(s) in terms of four nodal DOFs - Use cubic function: - Relation to the slope: - Apply four . The above tool can be used as a steel beam calculator, a timber calculator or even used for concrete structures. How to Use the Free Beam Calculator One of these methods is the separation into a small deflection plate and a thin membrane described by a simple third order polynomial expression. We have tabulated these formulas for you, as shown below: Simply-supported beam deflection formulas. To calculate the reaction forces, we can use the following steps: Fy = 0 Mathematica is used in handling the algebraic . Downloads (inches, kips, ksi), Metric Engineering Calculators ABN: 73 605 703 071. I = 30 (4)/12 deflection of a constrained rectangular plate By this I assume you mean that all edges are fixed. Per. The moment in a beam with uniform load supported at both ends in position x can be expressed as. The reason for adding Load Cases becomes apparent now in the final step. The plates may be loaded evenly (unevenly) on the whole surface . Downloads: 524. Spring Design Apps Electronics Instrumentation Calculate the depth of compressive force on concrete 2. Beam deflection is an important part of beam analysis, but another important part is stress analysis. He is sadly missed. Welding Stress Calculations Roarks Formulas for Stress and Strain, Flat Rectangular Plate, Three Edges Fixed, One Edge (a) Free Loading Uniformly decreasing from fixed edge to zero at 1/3b Equation and Calculator. In a frame, we call the vertical framing columns and the horizontal ones beams. The diagram can be used to determine the maximum and minimum bending moments and their locations. The behavior of a plate supported on only two opposing sides with loads that are uniform along the width of the plate is identical to that of a beam, so the standard beam deflection equations can be used. Hi, . Now that we know the concepts of modulus of elasticity and moment of inertia, we can now understand why these variables are the denominators in our beam deflection formulas. Here is how the Allowable Bending Stress given Plate Thickness calculation can be explained with given input values - 15.84375 = (0.75*50000000*(0.035-2*0.05)^ Do My Homework Beam Deflection on Steel Plate 10.14 the bending moments and reaction forces of a simply supported square plate subjected to a uniformly distributed load. 2007-2023 MoreVision Ltd. All Rights Reserved. The approach using a free body diagram calculation is shown here. Roarks Formulas for Stress and Strain, Continuous Plate Supported on an Elastic Foundation of Modulus k (lb/in2/in) Stress and Deflection Equation and Calculator. Import design modules such as AISC, ACI, Eurocode, Australian Standards, CSA, NDS and much more, to complete all your designs in one place - whether it's timber, steel or concrete we have you covered. The in-plane plate dimensions are large compared to the thickness. Reaction forces on a beam can be calculated by solving the following equilibrium equations: Fy = 0 File Size: 857.50 Kb. The Euler-Bernoulli equation describes a The bending moment is a measure of the intensity of the bending force in a beam and is defined as the product of the load and the distance from the neutral axis. The deflections and stresses resulting The . You can also easily obtain the value of the modulus of elasticity for other materials, such as steel and concrete, from the internet or your local library. Sadly. (see above). Will write deflection curve v(s) in terms of s v 1 v 2 2 1 L x 1 s = 0 x 2 s = 1 x {} { } 11 2 2 q vv T 1 ,, 1 1, xx sdsdx LL ds dx Lds dx L 20 FINITE ELEMENT INTERPOLATION cont. Roarks Formulas for Stress and Strain, Continuous Plate Supported at Equal Intervals "a" on Circular Supports of Radius ro Uniform Loading of Entire Plate Stress Equation and Calculator. Circular Plate , uniform load , edges clamped . Start your free ClearCalcs trial to unlock saving and export, as well as even more calculators for wood, steel, and concrete beams, columns, and footings. Just consult the directions of the arrows in the formula's corresponding image to figure out which directions has a positive load value. Hello,Just a query regarding equation 7 on this spreadsheet. In engineering, it's important to understand and calculate beam deflection because it can affect the overall strength and stability of a structure. The supports are located at points A and B. This is insanely useful! My general go-to for these types of formulations is Roark's Formulas for Stress and Strain, 7th Edition. diameter. using We make elegant, powerful structural engineering and structural analysis software. compared to the plate thickness. Rectangular Flat Plate , concentrated load at centre,edge simply supported. Uniform loading over small concentric circle of radius, Flat Rectangular Plate; all edges fixed. The following notations have been used to describe the supports and loading conditions: "Good engineers don't need to remember every formula; they just need to know where they can find them.". Per. The solution in series. SkyCiv Beam tool guides users along a professional beam calculation workflow, culminating in the ability to view and determine if they comply with your region's Design Codes. Here's an example of a cut made just after the first support (which has an upward force of 25kN): By taking the sum of forces in Y, we can see there would be a positive shear force in the beam. When you stand on the end of the diving board, it bends and dips down. Per. Straight lines in the plate that were originally vertical remain straight but become inclined; therefore the intensity of either principal stress at points on any such line is proportional to the distance from the middle surface, and the maximum stresses occur at the outer surfaces of the plate. In structural engineering, deflection is the degree to which a part of a structural element is displaced under a load (because it deforms).It may refer to an angle or a distance. Flat Plates Stress, Deflection Equations and Calculators: The follow web pages contain engineering design calculators that will determine the amount of deflection and stress a flat plate of known thickness will deflect under the specified load and distribution. In building construction, we usually use framing structures that are held in place by the foundations in the ground. Roarks Formulas for Stress and Strain, Flat Rectangular Plate, Two Edges Fixed, Two Edges Free Load Uniformly Decreasing from z = 0 to z = (2/3) b Equation and Calculator. If you want to enter an upward load, simply enter a negative . The calculation is designed for plates Clarify math tasks. This page calculates support reaction forces for simply supported beam carrying point load at center of span. Design & Manufacturability the method of What is beam deflection and beam bending? steel, wood Heat Transfer Eastern white pine has a modulus of elasticity of 6,800 MPa (6.810 Pa), which is the value we obtained from the Wood Handbook. Economics Engineering diagrams, deflection curves, slope and tabulated results. Now that our beam and loads have been assigned, let's solve! = RA + RB - 5*10 Deflections are assumed to be very small compared to the overall length of the beam. Engineering Standards The hot car calculator shows how fast a car's interior heats up during a summer day. This is because excessive deflection can result in unwanted aesthetic effects, such as sagging floors, cracking of finishes, or discomfort for the users. The modulus of elasticity depends on the beam's material. By identifying not only the loading condition but also the type of edge supports it is possible to use classical plate theory as one method to annalise a structure in smaller more manageable idealised sections. Roarks Formulas for Stress and Strain, Flat Rectangular Plate, Two Edges Fixed, Two Edges Free Loading Uniform over Entire Plate Equation and Calculator. Engineering Book Store Reactions of Support Shear Force Diagrams Bending Moment Diagrams Deflection and Span Ratios Cantilever & Simply Supported Beam. Per. Too much deflection can result in failure, so engineers need to design beams that are strong enough to resist deflection under the loads they will experience. A 6-m simply supported parabolic beam having a width of 400 mm and height of 500 mm is reinforced with 4-32 mm placed 100 mm from the bottom of the beam. wmax = w(lx/2, ly/2) = 0.0172988270109 mm They are usually comprised of the following reaction forces (assuming forces are applied in vertical and horizontal directions: The beam span calculator will easily calculate the reactions at supports. Beam deflection is the vertical displacement of a point along the centroid of a beam. However, these formulas can only solve simple loads and a combination of these loads. Mx = moment in position x (Nm, lb in) x = distance from end (m, mm, in) The maximum moment is at the center of the beam at distance L/2 and can be . A free, online beam calculator to generate shear force diagrams, bending moment diagrams, deflection curves and slope curves for simply supported and cantilvered beams. 2023, by Engineers Edge, LLC www.engineersedge.com Roarks Formulas for Stress and Strain, Flat Rectangular Plate, Two Edges Fixed, Two Edges Free Load Uniformly Decreasing from z = 0 to z = (1/3) b Equation and Calculator. If this is a classroom lab experiment you might consider a 1" strip. The load Both of them inhibit any vertical movement, allowing on the other hand, free rotations around them. Note that for a curvilinear boundary it is [6,7] (6.83) where is the curvature of the boundary. Many of the stress and deflection equations and calculators referenced from . Hydraulics Pneumatics Bearing Apps, Specs & Data Since the early 1990s, the trend began of studying the possibility of involving fiber-reinforced polymers (FRPs) in the construction industry [3].A few years later, particularly in the early 2000s, FRPs have . How to Calculate Beam Deflection. We can now calculate the deflection the bench's seat will experience due to a point load at its center: = P L / (48 E I) superposition. Feedback Advertising You can do so using the 'Load Case' drop down menu before adding each respective load. Excel App. two fixed ends or the load will be supported on both ends. The moment of inertia depends on the dimensions of the material's cross-section. The magnitude and location of these loads affect how much the beam bends. To use the calculator, simply follow these steps: One of the most powerful functions is using it as a beam deflection calculator (or beam displacement calculator). therefore the intensity of either principal stress at points on any This can be used to observe the calculated deflection of a simply supported beam or of a cantilever beam. Per. Calculate reactions, shear force, bending moment, deflection and stress for cantilever or simply. Bending Moment and Shear Force calculations may take up to 10 seconds to appear and please note you will be directed to a new page with the reactions, shear force diagram and bending moment diagram of the beam.