S. Stanford Manson
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S. Stanford Mansonengineering Degrees
Engineering
#4227
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#5411
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Materials Science
#195
World Rank
#197
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Mechanical Engineering
#331
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#369
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Applied Physics
#982
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#1007
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Engineering
S. Stanford Manson's Degrees
- PhD Materials Science Stanford University
- Masters Mechanical Engineering Stanford University
- Bachelors Mechanical Engineering Stanford University
Why Is S. Stanford Manson Influential?
(Suggest an Edit or Addition)S. Stanford Manson's Published Works
Number of citations in a given year to any of this author's works
Total number of citations to an author for the works they published in a given year. This highlights publication of the most important work(s) by the author
Published Works
- Behavior of materials under conditions of thermal stress (1953) (1137)
- Fatigue: A complex subject—Some simple approximations (1965) (1115)
- Practical implementation of the double linear damage rule and damage curve approach for treating cumulative fatigue damage (1981) (424)
- Thermal Stress and Low-Cycle Fatigue (2020) (372)
- Fatigue And Durability of Structural Materials (2005) (192)
- A Modified Universal Slopes Equation for Estimation of Fatigue Characteristics of Metals (1988) (189)
- Creep-fatigue analysis by strain-range partitioning. (1971) (180)
- A linear time-temperature relation for extrapolation of creep and stress-rupture data (1953) (173)
- Re-examination of cumulative fatigue damage analysis—an engineering perspective (1986) (154)
- Application of a double linear damage rule to cumulative fatigue (1967) (123)
- Interfaces between fatigue, creep, and fracture (2012) (115)
- The Challenge to Unify Treatment of High Temperature Fatigue—A Partisan Proposal Based on Strainrange Partitioning (1972) (100)
- Fatigue Behavior of Materials under Strain Cycling in Low and Intermediate Life Range (1963) (98)
- Life prediction of thermal-mechanical fatigue using strainrange partitioning (1975) (64)
- THEORY OF THERMAL SHOCK RESISTANCE OF BRITTLE MATERIALS BASED ON WEIBULL'S STATISTICAL THEORY OF STRENGTH (1955) (60)
- Temperature effects on the strainrange partitioning approach for creep-fatigue analysis (1972) (60)
- Fatigue behavior in strain cycling in the low- and intermediate-cycle range. (1964) (59)
- Application of a method of estimating high- temperature low-cycle fatigue behavior of materials. (1967) (53)
- Practical solution of plastic deformation problems in elastic-plastic range (1957) (53)
- A General Approach to the Practical Solution of Creep Problems (1959) (49)
- Discussion: “Experimental Support for Generalized Equation Predicting Low Cycle Fatigue” (Tavernelli, J. F., and Coffin, Jr., L. F., 1962, ASME J. Basic Eng., 84, pp. 533–537) (1962) (46)
- FATIGUE LIFE PREDICTION IN BENDING FROM AXIAL FATIGUE INFORMATION (1987) (43)
- A simple procedure for estimating high-temperature low-cycle fatigue (1968) (39)
- A Quarter-Century of Progress in the Development of Correlation and Extrapolation Methods for Creep Rupture Data (1979) (35)
- Further Investigation of a Relation for Cumulative Fatigue Damage in Bending (1965) (35)
- Interfaces between fatigue, creep, and fracture (1966) (33)
- Inversion of the strain-life and strain-stress relationships for use in metal fatigue analysis (1979) (29)
- Crack initiation and propagation in notched fatigue specimens. (1965) (25)
- Discussion: “Multiaxial Low-Cycle Fatigue of Type 304 Stainless Steel” (Blass, J. J., and Zamrik, S. Y., 1976 Winter Annual Meeting) (1977) (24)
- Optimization of time-temperature parameters for creep and stress rupture, with application to data from german cooperative long-time creep program (1965) (24)
- Interpretive report on cumulative fatigue damage in the low cycle range (1964) (21)
- Complexities of high temperature metal fatigue: Some steps toward understanding (1983) (19)
- Metal fatigue damage--mechanism, detection, avoidance, and repair : With special reference to gas turbine components (1971) (18)
- The role of creep in high temperature low cycle fatigue. (1971) (17)
- Separation of the strain components for use in Strainrange Partitioning (1975) (16)
- Stress-Rupture Properties of Inconel 700 and Correlation on the Basis of Several Time-Temperature Parameters (1956) (16)
- A Single-Expression Formula for Inverting Strain-Life and Stress-Strain Relationships (1987) (16)
- Treatment of multiaxial creep-fatigue by strainrange partitioning (1976) (16)
- Design Considerations for Long Life at Elevated Temperatures (1963) (15)
- Future directions for low cycle fatigue (1988) (14)
- The role of ductility, tensile strength and fracture toughness in fatigue (1970) (13)
- Reexamination of Cumulative Fatigue Damage Laws (1985) (13)
- Relation of cyclic loading pattern to microstructural fracture in creep fatigue (1983) (13)
- Interpolation and Extrapolation of Creep Rupture Data by the Minimum Commitment Method. Part 3: Analysis of Multiheats (1978) (11)
- Environmental degradation of 316 stainless steel in high temperature low cycle fatigue (1987) (10)
- Low cycle fatigue of notched specimens by consideration of crack initiation and propagation (1967) (10)
- A specialized model for analysis of creep- rupture data by the minimum commitment, station-function approach (1971) (10)
- New directions in materials research dictated by stringent future requirements (1971) (9)
- Interpolation and extrapolation of creep rupture data by the minimum commitment method. I - Focal-point convergence (1978) (9)
- Optimization of Parametric Constants for Creep-Rupture Data by Means of Least Squares (1959) (8)
- Avoidance, control, and repair of fatigue damage. (1971) (7)
- Exposure time considerations in high temperature low cycle fatigue (1988) (7)
- Some useful concepts for the designer in treating cumulative fatigue damage at elevated temperatures (1980) (6)
- Correction: Practical implementation of the double linear damage rule and damage curve approach for treating cumulative fatigue damage (1981) (5)
- The development and application of strainrange partitioning as a tool in the treatment of high temperature metal fatigue (1978) (5)
- A Survey of the Effects of Nonsteady Load and Temperature Conditions on the Creep of Metals (1959) (5)
- Quantitative Evaluation of Thermal-Shock Resistance (1956) (5)
- Predictive analysis of metal fatigue in the high cyclic life range (1979) (5)
- Literature surveys on influence of stress concentrations at elevated temperatures and the effects of nonsteady load and temperature conditions on the creep of metals (1959) (5)
- Analysis of creep-rupture data for five multiheat alloys by the minimum-commitment method using double heat-term-centering technique. Final report (1983) (4)
- The Extrapolation of Families of Curves by Recurrence Relations, With Application to Creep-Rupture Data (1960) (3)
- Approximate Solution to Thermal-Shock Problems in Plates, Hollow Spheres, and Cylinders With Heat Transfer at Two Surfaces (1956) (3)
- Interpolation and extrapolation of creep rupture data by the minimum commitment method. II - Oblique translation (1978) (2)
- Time dependency of strainrange partitioning life relationships (1984) (2)
- A new formulation of mean stress effects in fatigue (1987) (2)
- Tensile and Compressive Constitutive Response of 316 Stainless Steel at Elevated Temperatures (1982) (2)
- CONCURRENT FIELD SERVICE AND LABORATORY TESTING AS A MEANS OF IMPROVING RELIABILITY IN CREEP-RUPTURE APPLICATIONS (1992) (1)
- Discussion: “Application of a Cumulative Damage Concept to Fatigue” (Gatts, R. R., 1961, ASME J. Basic Eng., 83, pp. 529–534) (1961) (1)
- An Automatic Electrical Analyzer for 45 Degree Strain-rosette Data (1944) (1)
- Overview of high temperature metal fatigue aspects covered by the 1973 International Conference on Creep and Fatigue (1974) (1)
- Discussion: “Comparison of Parameter Methods for Extrapolating High-Temperature Data” (Goldhoff, R. M., 1959, ASME J. Basic Eng., 81, pp. 629–643) (1959) (1)
- Treatment of low strains and long hold times in high temperature metal fatigue by strainrange partitioning (1977) (1)
- Discussion given at conference on thermal stresses and thermal fatigue (1969) (1)
- The strainrange conversion principle for treating cumulative fatigue damage in the creep range (1983) (1)
- LITERATURE SURVEY ON THE EFFECT OF CYCLIC HEATING AND LOADING ON THE CREEP, STRESS-RUPTURE AND FATIGUE PROPERTIES OF METALS AT ELEVATED TEMPERATURES (1957) (0)
- Closure to “Discussion of ‘The Extrapolation of Families of Curves by Recurrence Relations, With Application to Creep-Rupture Data’” (1960, ASME J. Basic Eng., 82, pp. 846–847) (1960) (0)
- Discussion: “Correlation of High Temperature Creep and Rupture Data” (Conrad, Hans, 1959, ASME J. Basic Eng., 81, pp. 617–626) (1959) (0)
- Double Linear Damage Rule for Fatigue Analysis (1985) (0)
- Aerospace Structural Metals Handbook. Volume 5. Supplement XI. Nonferrous Alloys (1978) (0)
- Approaches to Life-Prediction Problems in Creep Rupture and Fatigue at High Temperatures (1970) (0)
- Effect of rotating stall on compressor blade vibration (1955) (0)
- Closure to “Discussion of ‘Approximate Solution to Thermal-Shock Problems in Plates, Hollow Spheres, and Cylinders With Heat Transfer at Two Surfaces’” (1956, Trans. ASME, 78, p. 553) (1956) (0)
- Development of a standard methodology for the correlation and extrapolation of elevated temperature. Volume 1. A summary of a state-of-the-art review and a workshop. Final report (1979) (0)
- Fatigue : A ComplexSubjectSome Simple Approximation (1965) (0)
- Discussion: “Energy Approach for Creep-Fatigue Interactions in Metals at High Temperatures” (Fong, J. T., 1975, ASME J. Pressure Vessel Technol., 97, pp. 214–222) (1976) (0)
- Discussion: “Validity of Time-Compensated Temperature Parameters for Correlating Creep and Creep-Rupture Data” (Garofalo, F., Smith, G. V., and Royle, B. W., 1956, Trans. ASME, 78, pp. 1423–1429) (1956) (0)
- Application of obliquely mounted strain gage to measurement of residual stresses in disks (1957) (0)
- Closure to “Discussions of ‘A General Approach to the Practical Solution of Creep Problems’” (1959, ASME J. Basic Eng., 81, pp. 595–597) (1959) (0)
- Discussion: “Extension of Iteration Method for Determining Strain Distributions to the Uniformly Stressed Plate With a Hole” (Davis, E. A., 1963, ASME J. Appl. Mech., 30, pp. 210–214) (1964) (0)
- Discussion: “Design of Pressure Vessels for Low-Cycle Fatigue” (Langer, B. F., 1962, ASME J. Basic Eng., 84, pp. 389–399) (1962) (0)
- Charts for rapid analysis of 45 degree strain-rosette data (1944) (0)
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