The chain-of-bundles probability model for the strength of fibrous materials I: analysis and conjectures DG Harlow, SL Phoenix Journal of composite materials 12 (2), 195-214, 1978 | 589 | 1978 |
The chain-of-bundles probability model for the strength of fibrous materials II: a numerical study of convergence DG Harlow, SL Phoenix Journal of composite materials 12 (3), 314-334, 1978 | 314 | 1978 |
Wire and arc additive manufactured steel: Tensile and wear properties CV Haden, G Zeng, FM Carter III, C Ruhl, BA Krick, DG Harlow Additive Manufacturing 16, 115-123, 2017 | 280 | 2017 |
A probability model for the growth of corrosion pits in aluminum alloys induced by constituent particles DG Harlow, RP Wei Engineering fracture mechanics 59 (3), 305-325, 1998 | 234 | 1998 |
Predicting tensile properties of Ti-6Al-4V produced via directed energy deposition BJ Hayes, BW Martin, B Welk, SJ Kuhr, TK Ales, DA Brice, I Ghamarian, ... Acta Materialia 133, 120-133, 2017 | 209 | 2017 |
Probability distributions for the strength of composite materials II: A convergent sequence of tight bounds DG Harlow, SL Phoenix International Journal of Fracture 17 (6), 601-630, 1981 | 206 | 1981 |
Probability approach for prediction of corrosion and corrosion fatigue life DG Harlow, RP Wei AIAA journal 32 (10), 2073-2079, 1994 | 153 | 1994 |
Probability distributions for the strength of composite materials I: two-level bounds DG Harlow, SL Phoenix International Journal of Fracture 17, 347-372, 1981 | 146 | 1981 |
Fatigue crack growth anisotropy, texture and residual stress in austenitic steel made by wire and arc additive manufacturing JV Gordon, CV Haden, HF Nied, RP Vinci, DG Harlow Materials Science and Engineering: A 724, 431-438, 2018 | 141 | 2018 |
A geometric approach to modeling microstructurally small fatigue crack formation: I. Probabilistic simulation of constituent particle cracking in AA 7075-T651 JE Bozek, JD Hochhalter, MG Veilleux, M Liu, G Heber, SD Sintay, ... Modelling and Simulation in Materials Science and Engineering 16 (6), 065007, 2008 | 111 | 2008 |
Approximations for the strength distribution and size effect in an idealized lattice model of material breakdown DG Harlow, SL Phoenix Journal of the Mechanics and Physics of Solids 39 (2), 173-200, 1991 | 108 | 1991 |
Lower tail analysis of the distribution of the strength of load-sharing systems DG Harlow, RL Smith, HM Taylor Journal of Applied Probability 20 (2), 358-367, 1983 | 105 | 1983 |
Probability distributions for the strength of fibrous materials under local load sharing I: two-level failure and edge effects DG Harlow, SL Phoenix Advances in Applied Probability 14 (1), 68-94, 1982 | 103 | 1982 |
Bounds on the probability of failure of composite materials DG Harlow, SL Phoenix International Journal of Fracture 15, 321-336, 1979 | 87 | 1979 |
Applications of the Fréchet distribution function DG Harlow International Journal of Materials and Product Technology 17 (5-6), 482-495, 2002 | 80 | 2002 |
Enhancement in fatigue performance of metastable austenitic stainless steel through directed energy deposition additive manufacturing J Gordon, J Hochhalter, C Haden, DG Harlow Materials & Design 168, 107630, 2019 | 76 | 2019 |
The effect of constituent particles in aluminum alloys on fatigue damage evolution: Statistical observations DG Harlow, J Nardiello, J Payne International Journal of Fatigue 32 (3), 505-511, 2010 | 76 | 2010 |
Probabilities of occurrence and detection of damage in airframe materials DG Harlow, RP Wei Fatigue & Fracture of Engineering Materials & Structures 22 (5), 427-436, 1999 | 66 | 1999 |
Statistical analysis of constituent particles in 7075-T6 aluminum alloy DG Harlow, RP Wei, MZ Wang Metallurgical and Materials Transactions A 37, 3367-3373, 2006 | 54 | 2006 |
Crack growth based probability modeling of S–N response for high strength steel DG Harlow, RP Wei, T Sakai, N Oguma International Journal of Fatigue 28 (11), 1479-1485, 2006 | 51 | 2006 |