MIPAR (Software Company)
MIPAR Software
| File:MIPAR Logo 512x512.png | |
| Developer(s) | MIPAR Software LLC |
|---|---|
| Initial release | 2017 |
| Stable release | v5.1.0
/ Feb 10, 2025 |
| Engine | |
| Operating system | Windows 10 & 11, macOS Intel & Apple Silicon |
| Type | Image analysis Software |
| License | Proprietary |
| Website | mipar |
Search MIPAR (Software Company) on Amazon.
MIPAR Software, LLC, is the developer of the MIPAR Image Analysis software suite. The company was founded in 2017 and is headquartered in Columbus, Ohio, United States. The software was initially developed at The Ohio State University’s Center for the Accelerated Maturation of Materials to quantify features in titanium micrographs.[1]
Originally designed for metallurgical image analysis, MIPAR has since evolved into a comprehensive image-processing platform used across multiple disciplines, including materials science, biomedical research, agriculture, and manufacturing sectors such as aerospace, automotive, and medical devices. The software leverages computer vision and machine learning to automate complex image analysis tasks.
Features
MIPAR Software offers a comprehensive suite of image analysis tools designed to automate and enhance feature detection and measurement across various scientific and industrial applications. The key components and their functionalities include:
Image Analysis Software
MIPAR offers solutions for automating image processing, providing tools for feature detection and measurement across various scientific and industrial applications. Key products include:
MIPAR Base – The core product of MIPAR, MIPAR Base, is utilized across sectors such as materials science, life sciences, and manufacturing to automate image analysis. It supports over 150 file formats and provides a dynamic toolkit for developing and executing automated workflows. Users can construct and implement image analysis algorithms, perform batch processing, and utilize real-time processing for immediate image handling. The software includes a batch review environment to confirm detection accuracy before measurement generation. It offers over 100 image processing functions and more than 30 distinct measurements, with the flexibility to customize measurement formulas. Data can be exported to CSV files or professional Word/PDF reports, and all image outputs are non-proprietary for easy sharing. The interface is user-friendly, requires no programming knowledge, and provides real-time feedback.
Deep Learning Extension – This extension integrates advanced AI tools, enabling users to train convolutional neural network (CNN) models directly on their systems. The Model Trainer is designed to achieve high accuracy with minimal training data, sometimes requiring as few as four annotated images. Importantly, all data remains on the user's system, ensuring privacy and security. This extension is ideal for automating research projects' complex feature detection and segmentation tasks.
Spotlight Extension – Spotlight incorporates transformer-based AI models into the analysis workflow, enhancing segmentation and classification capabilities. It enables the software to recognize a wide array of objects, even those it hasn't been specifically trained on, streamlining the detection process within MIPAR's ecosystem. This extension runs locally on the user's system to ensure data privacy and security.
3D Toolbox – The 3D Toolbox provides tools for volumetric image analysis, allowing users to process and analyze three-dimensional datasets. This is particularly useful for applications requiring depth and volume measurements.
Report Generator – This feature enables users to export analysis results in various formats, including CSV, Word, and PDF, facilitating easy documentation and sharing of findings.
Microscope Software
MIPAR Live – Designed for digital optical microscopes, MIPAR Live allows users to capture images, perform analyses, and generate reports within a unified workflow. It offers seamless integration of image acquisition and analysis, ensuring consistent imaging conditions and preventing variability in analysis results. The software supports various microscope cameras and provides intuitive controls for image capture, analysis application, and result generation.
Regulatory Environment Software
MIPAR Checkpoint – Tailored for environments requiring compliance with regulatory standards such as FDA 21 CFR Part 11 and GMP Annex 11, MIPAR Checkpoint offers features including user access control, automated analysis reporting, electronic sign-off, and comprehensive audit trails. It streamlines the deployment of automated analysis in production settings, ensuring traceability and adherence to regulatory requirements.
Integration Tools
MIPAR provides tools for integrating its software with external systems, including:
Docker REST API – This tool facilitates cloud-based processing, enabling users to integrate MIPAR's image analysis capabilities into external applications or workflows, such as web-based applications or database plugins. It supports scalable image analysis operations, making it suitable for large-scale projects.
Python API Library – The Python API allows for scripting and automation of image processing tasks, providing flexibility for researchers and developers to customize workflows and integrate MIPAR's functionalities into their existing systems.
Applications
MIPAR Image Analysis software provides a flexible toolkit and is used across many industries and research fields:
Material Science
- Titanium alloys[2][3][4][5][6][7][8][9][10][11][12][13][14][15][16][17][18][19][20][21][22][23][24][25][26][27][28][29][30]
- Superalloy[31][32][33][34][35][36][37][38][39][40][41][42][43][44][45][46][47]
- Steel[48][49][50][51][52][53][54][55][56][57][58][59]
- Other Materials[60][61][62][63][64][65][66]
Life Science
- Agriculture[67][68][69][70][71][72][73][74][75][76][77][78][79][80][81][82][83][84][85][86][87][88][89][90][91][92]
- Water treatment[93][94]
- Wildlife[95]
- Biomedical Research[96][97][98][99][100][101][102][103][104][105][106][107][108][109][110][111][112][113][114][115][116][117][118][119][120][121][122][123]
Manufacturing
- Lithium-ion battery[124]
- Ceramics engineering[125][126]
- Energy[127][128][129][130][131][132][133][134][135][136]
- Welding[137][138]
- Semiconductor[139]
- Additive Manufacturing[140]
- Nanoparticle[141]
- Other[142][143][144]
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Supported platforms
MIPAR Software is compatible with:
Windows 10 & 11 – Fully supported with GPU acceleration.
macOS (Intel & Apple silicon)
External links
This article "MIPAR (Software Company)" is from Wikipedia. The list of its authors can be seen in its historical and/or the page Edithistory:MIPAR (Software Company). Articles copied from Draft Namespace on Wikipedia could be seen on the Draft Namespace of Wikipedia and not main one.
- ↑ "Software for analyzing microscopic images poised for big market success". COLLEGE OF ENGINEERING. 2017-05-30. Retrieved 2025-02-18.
- ↑ Zheng, Yufeng; Williams, Robert E. A.; Wang, Dong; Shi, Rongpei; Nag, Soumya; Kami, Pavani; Sosa, John M.; Banerjee, Rajarshi; Wang, Yunzhi; Fraser, Hamish L. (2016-01-15). "Role of ω phase in the formation of extremely refined intragranular α precipitates in metastable β-titanium alloys". Acta Materialia. 103: 850–858. Bibcode:2016AcMat.103..850Z. doi:10.1016/j.actamat.2015.11.020. ISSN 1359-6454.
- ↑ Zheng, Yufeng; Williams, Robert E. A.; Sosa, John M.; Wang, Yunzhi; Banerjee, Rajarshi; Fraser, Hamish L. (2016-01-15). "The role of the ω phase on the non-classical precipitation of the α phase in metastable β-titanium alloys". Scripta Materialia. Viewpoint Set No. 57: Contemporary Innovations for Thermoelectrics Research and Development. 111: 81–84. doi:10.1016/j.scriptamat.2015.08.019. ISSN 1359-6462.
- ↑ Shao, Meiyue; Vijayan, Sriram; Nandwana, Peeyush; Jinschek, Joerg R. (2020-11-01). "The effect of beam scan strategies on microstructural variations in Ti-6Al-4V fabricated by electron beam powder bed fusion". Materials & Design. 196. doi:10.1016/j.matdes.2020.109165. ISSN 0264-1275. Unknown parameter
|article-number=ignored (help) - ↑ Halder, Rajib; Pistorius, Petrus C.; Blazanin, Scott; Sardey, Rigved P.; Quintana, Maria J.; Pierson, Edward A.; Verma, Amit K.; Collins, Peter C.; Rollett, Anthony D. (January 2024). "The Effect of Interlayer Delay on the Heat Accumulation, Microstructures, and Properties in Laser Hot Wire Directed Energy Deposition of Ti-6Al-4V Single-Wall". Materials. 17 (13): 3307. Bibcode:2024Mate...17.3307H. doi:10.3390/ma17133307. ISSN 1996-1944. PMC 11243745 Check
|pmc=value (help). PMID 38998387 Check|pmid=value (help). - ↑ Li, Dian; Fields, Sydney; Zhang, Xing; Pillai, Deepak V; Haque, Mohammad Merajul; Ingale, Tirthesh; Soni, Vishal; Liao, Yiliang; Banerjee, Rajarshi; Zheng, Yufeng (2024-08-05). "Tuning α precipitation via post-heat treatments in direct energy deposited metastable β Ti-5Al-5Mo-5V-3Cr alloy and its impact on mechanical properties". Additive Manufacturing. 93. doi:10.1016/j.addma.2024.104436. ISSN 2214-8604. Unknown parameter
|article-number=ignored (help) - ↑ Brice, D. A.; Samimi, P.; Ghamarian, I.; Liu, Y.; Brice, R. M.; Reidy, R. F.; Cotton, J. D.; Kaufman, M. J.; Collins, P. C. (2016-11-01). "Oxidation behavior and microstructural decomposition of Ti-6Al-4V and Ti-6Al-4V-1B sheet". Corrosion Science. 112: 338–346. Bibcode:2016Corro.112..338B. doi:10.1016/j.corsci.2016.07.032. ISSN 0010-938X.
- ↑ O’Donnell, Katie; Quintana, Maria J.; Kenney, Matthew J.; Collins, Peter C. (September 2023). "Using defects as a 'fossil record' to help interpret complex processes during additive manufacturing: as applied to raster-scanned electron beam powder bed additively manufactured Ti–6Al–4V". Journal of Materials Science. 58 (33): 13398–13421. Bibcode:2023JMatS..5813398O. doi:10.1007/s10853-023-08838-0. ISSN 0022-2461.
- ↑ Luo, Qixiang; Yin, Lu; Simpson, Timothy W.; Beese, Allison M. (2022-08-01). "Effect of processing parameters on pore structures, grain features, and mechanical properties in Ti-6Al-4V by laser powder bed fusion". Additive Manufacturing. 56. doi:10.1016/j.addma.2022.102915. ISSN 2214-8604. Unknown parameter
|article-number=ignored (help) - ↑ Campbell, Andrew; Murray, Paul; Yakushina, Evgenia; Marshall, Stephen; Ion, William (2018-03-05). "New methods for automatic quantification of microstructural features using digital image processing". Materials & Design. 141: 395–406. doi:10.1016/j.matdes.2017.12.049. ISSN 0264-1275.
- ↑ Zheng, Yufeng; Williams, Robert E. A.; Sosa, John M.; Alam, Talukder; Wang, Yunzhi; Banerjee, Rajarshi; Fraser, Hamish L. (2016-01-15). "The indirect influence of the ω phase on the degree of refinement of distributions of the α phase in metastable β-Titanium alloys". Acta Materialia. 103: 165–173. Bibcode:2016AcMat.103..165Z. doi:10.1016/j.actamat.2015.09.053. ISSN 1359-6454.
- ↑ Tonyali, Beril; Sun, Hui; Liu, Zi-Kui; Keist, Jayme; Beese, Allison M. (2024-12-25). "Tailoring the coefficient of thermal expansion in a functionally graded material: Al alloyed with Ti-6Al-4V using additive manufacturing". Journal of Alloys and Compounds. 1009. doi:10.1016/j.jallcom.2024.176971. ISSN 0925-8388. Unknown parameter
|article-number=ignored (help) - ↑ Lu, Y.; Aristizabal, M.; Wang, X.; Pang, B.; Chiu, Y. L.; Kloenne, Z. T.; Fraser, H. L.; Loretto, M. H. (2019-02-15). "The influence of heat treatment on the microstructure and properties of HIPped Ti-6Al-4V". Acta Materialia. 165: 520–527. Bibcode:2019AcMat.165..520L. doi:10.1016/j.actamat.2018.12.025. ISSN 1359-6454.
- ↑ Luo, Qixiang; Yin, Lu; Simpson, Timothy W.; Beese, Allison M. (2023-02-01). "Dataset of process-structure-property feature relationship for laser powder bed fusion additive manufactured Ti-6Al-4V material". Data in Brief. 46. Bibcode:2023DIB....4608911L. doi:10.1016/j.dib.2023.108911. ISSN 2352-3409. PMC 9880387 Check
|pmc=value (help). PMID 36710913 Check|pmid=value (help). Unknown parameter|article-number=ignored (help) - ↑ Opini, Victor C.; Salvador, Camilo A. F.; Campo, Kaio N.; Lopes, Eder S. N.; Chaves, Ricardo R.; Caram, Rubens (2016-07-18). "α phase precipitation and mechanical properties of Nb-modified Ti-5553 alloy". Materials Science and Engineering: A. 670: 112–121. doi:10.1016/j.msea.2016.06.001. ISSN 0921-5093.
- ↑ Chesetti, Advika; Ingale, Tirthesh; Banerjee, Sucharita; Radhakrishnan, Madhavan; Dahotre, Narendra B.; Sharma, Abhishek; Banerjee, Rajarshi (2024-12-01). "Impact of multi-scale microstructural heterogeneities on the mechanical behavior of additively manufactured and post-processed Nb-based C103 alloy". Materialia. 38. doi:10.1016/j.mtla.2024.102230. ISSN 2589-1529. Unknown parameter
|article-number=ignored (help) - ↑ Shi, Rongpei; Li, Dian; Antonov, Stoichko; Liu, Xingjun; Zheng, Yufeng (2022-06-01). "Origin of morphological variation of grain boundary precipitates in titanium alloys". Scripta Materialia. 214. doi:10.1016/j.scriptamat.2022.114651. ISSN 1359-6462. Unknown parameter
|article-number=ignored (help) - ↑ Sharma, A.; Soni, V.; Dasari, S.; Mantri, S. A.; Zheng, Y.; Fraser, H.; Banerjee, R. (2021-04-15). "Fine scale alpha precipitation in Ti-19at.%v in the absence of influence from omega precipitates". Scripta Materialia. 196. doi:10.1016/j.scriptamat.2021.113766. ISSN 1359-6462. Unknown parameter
|article-number=ignored (help) - ↑ Sen, Mainak; Suman, Swati; Kumar, Mukesh; Banerjee, Trideep; Bhattacharjee, Amit; Kar, Sujoy Kumar (2018-12-01). "Thermo-mechanical processing window for β phase recrystallization inTi-5Al-5Mo-5V-3Cr alloy". Materials Characterization. 146: 55–70. doi:10.1016/j.matchar.2018.09.038. ISSN 1044-5803.
- ↑ Kulakov, Mykola; Rahimi, Salaheddin; Semiatin, S. Lee (2022-02-01). "Effect of Deformation Heating on Microstructure Evolution During Hot Forging of Ti-6Al-4V". Metallurgical and Materials Transactions A. 53 (2): 407–419. Bibcode:2022MMTA...53..407K. doi:10.1007/s11661-021-06493-1. ISSN 1543-1940.
- ↑ Agrawal, Priyanka; Gupta, Sanya; Reeder, Jessica; Toll, Michael P.; Mishra, Rajiv S. (2024-10-01). "Corrosion resistance tailoring of a paramagnetic Ti–6Al–4V through a static magnetic field exposure in solid state". Journal of Materials Science. 59 (38): 18215–18226. Bibcode:2024JMatS..5918215A. doi:10.1007/s10853-024-10255-w. ISSN 1573-4803.
- ↑ Zhang, Xing; Li, Dian; Liao, Yiliang; Zheng, Yufeng (June 2021). "Three-Dimensional Characterization of Selective Laser Melted Graphene Oxide-Reinforced Ti-48Al-2Cr-2Nb Alloy". JOM. 73 (6): 1795–1803. Bibcode:2021JOM....73.1795Z. doi:10.1007/s11837-021-04666-2. ISSN 1047-4838.
- ↑ Liu, Jianxin; Yang, Xinyu; Chai, Xingzai; Boccardo, Adrian; Chen, Yefeng; Wang, Xiaowei; Leen, Seán B; Gong, Jianming (2023-10-01). "Process-structure-property modeling for postbuild heat treatment of powder bed fusion Ti-6Al-4V". Proceedings of the Institution of Mechanical Engineers, Part L: Journal of Materials: Design and Applications. 237 (10): 2137–2150. doi:10.1177/14644207231174696. hdl:10379/17846. ISSN 1464-4207.
- ↑ Li, Dian; Zhang, Xing; Zhao, Wenrui; Merrill, H. Darlene; Meyer, Noah T.; Antonov, Stoichko; Liao, Yiliang; Zheng, Yufeng (2021-08-01). "The Role of High-Index Twinning on Hierarchical α Microstructure in a Metastable β Ti-5Al-5Mo-5V-3Cr Alloy". JOM. 73 (8): 2303–2311. Bibcode:2021JOM....73.2303L. doi:10.1007/s11837-021-04757-0. ISSN 1543-1851.
- ↑ Zheng, Yufeng; Sosa, John M.; Fraser, Hamish L. (May 2016). "On the Influence of Athermal ω and α Phase Instabilities on the Scale of Precipitation of the α Phase in Metastable β-Ti Alloys". JOM. 68 (5): 1343–1349. Bibcode:2016JOM....68e1343Z. doi:10.1007/s11837-016-1860-y. ISSN 1047-4838.
- ↑ Martin, Brian; Samimi, Peyman; Collins, Peter (2017-06-01). "Engineered, Spatially Varying Isothermal Holds: Enabling Combinatorial Studies of Temperature Effects, as Applied to Metastable Titanium Alloy β-21S". Metallography, Microstructure, and Analysis. 6 (3): 216–220. Bibcode:2017MMAna...6..216M. doi:10.1007/s13632-017-0361-x. ISSN 2192-9270.
- ↑ Mourot, Alivia; Gupta, Avantika; Vijayan, Sriram; Jinschek, Joerg; Fink, Carolin (2023-08-01). "Gamma Prime Characterization in Additively Manufactured Haynes 282 after One-Step and Two-Step Post-Process Heat Treatments". Microscopy and Microanalysis. 29 (Supplement_1): 1421–1422. doi:10.1093/micmic/ozad067.731. ISSN 1431-9276.
- ↑ Pilchak, Adam; Fox, Kate; Payton, Eric; Wiedemann, Mirjam; Broderick, Tom; Delaleau, Pierre; Glavicic, Michael; Jenkins, Nigel; Ruppert, Jean-Manuel (2024-09-01). Cold Dwell Fatigue of Titanium Alloys: History, Current State, and Aviation Industry Perspective (Report). doi:10.21949/rfzv-6285.
- ↑ Zheng, Yufeng; Sosa, John M.; Williams, Robert E.A.; Wang, Yunzhi; Banerjee, Rajarshi; Fraser, Hamish L. (2016), "Development of Ultrafine α Microstructures in a Metastable β Titanium Alloy", Proceedings of the 13th World Conference on Titanium, John Wiley & Sons, Ltd, pp. 521–527, doi:10.1002/9781119296126.ch83, ISBN 978-1-119-29612-6, retrieved 2025-02-18
- ↑ Styger, Gary; Laubscher, Rudolph F. (2021). "The prediction of the turned machining induced residual stresses in Ti6Al4V: A Critical Surface Integrity Descriptor". MATEC Web of Conferences. 347: 00037. doi:10.1051/matecconf/202134700037. ISSN 2261-236X.
- ↑ Senkov, O. N.; Jensen, J. K.; Pilchak, A. L.; Miracle, D. B.; Fraser, H. L. (2018-02-05). "Compositional variation effects on the microstructure and properties of a refractory high-entropy superalloy AlMo0.5NbTa0.5TiZr". Materials & Design. 139: 498–511. doi:10.1016/j.matdes.2017.11.033. ISSN 0264-1275.
- ↑ Jensen, J. K.; Welk, B. A.; Williams, R. E. A.; Sosa, J. M.; Huber, D. E.; Senkov, O. N.; Viswanathan, G. B.; Fraser, H. L. (2016-08-01). "Characterization of the microstructure of the compositionally complex alloy Al1Mo0.5Nb1Ta0.5Ti1Zr1". Scripta Materialia. 121: 1–4. doi:10.1016/j.scriptamat.2016.04.017. ISSN 1359-6462.
- ↑ Martin, Alexander C.; Oliveira, João Pedro; Fink, Carolin (2020-02-01). "Elemental Effects on Weld Cracking Susceptibility in AlxCoCrCuyFeNi High-Entropy Alloy". Metallurgical and Materials Transactions A. 51 (2): 778–787. doi:10.1007/s11661-019-05564-8. ISSN 1543-1940.
- ↑ Antonov, Stoichko; Zheng, Yufeng; Sosa, John M.; Fraser, Hamish L.; Cormier, Jonathan; Kontis, Paraskevas; Gault, Baptiste (2020-09-01). "Plasticity assisted redistribution of solutes leading to topological inversion during creep of superalloys". Scripta Materialia. 186: 287–292. doi:10.1016/j.scriptamat.2020.05.004. ISSN 1359-6462.
- ↑ Sulzer, Sabin; Li, Zhuangming; Zaefferer, Stefan; Hafez Haghighat, Seyed Masood; Wilkinson, Angus; Raabe, Dierk; Reed, Roger (2020-02-15). "On the assessment of creep damage evolution in nickel-based superalloys through correlative HR-EBSD and cECCI studies". Acta Materialia. 185: 13–27. Bibcode:2020AcMat.185...13S. doi:10.1016/j.actamat.2019.07.018. ISSN 1359-6454.
- ↑ Casalena, Lee; Bigelow, Glen S.; Gao, Yipeng; Benafan, Othmane; Noebe, Ronald D.; Wang, Yunzhi; Mills, Michael J. (2017-07-01). "Mechanical behavior and microstructural analysis of NiTi-40Au shape memory alloys exhibiting work output above 400 °C". Intermetallics. 86: 33–44. Bibcode:2017Intme..86...33C. doi:10.1016/j.intermet.2017.03.005. ISSN 0966-9795. OSTI 1413799.
- ↑ Shingledecker, John; Griscom, Eeva; Bridges, Alex (2023-10-01). "Relationship between Grain Size and Sample Thickness on the Creep-Rupture Performance of Thin Metallic Sheets of INCONEL Alloy 740H". Journal of Materials Engineering and Performance. 32 (20): 9309–9322. Bibcode:2023JMEP...32.9309S. doi:10.1007/s11665-022-07785-2. ISSN 1544-1024.
- ↑ Sulzer, Sabin; Alabort, Enrique; Németh, André; Roebuck, Bryan; Reed, Roger (2018-09-01). "On the Rapid Assessment of Mechanical Behavior of a Prototype Nickel-Based Superalloy using Small-Scale Testing". Metallurgical and Materials Transactions A. 49 (9): 4214–4235. Bibcode:2018MMTA...49.4214S. doi:10.1007/s11661-018-4673-5. ISSN 1543-1940.
- ↑ Kianinejad, K.; Darvishi Kamachali, R.; Khedkar, A.; Manzoni, A. M.; Jácome, L. Agudo; Schriever, S.; Saliwan Neumann, R.; Megahed, S.; Heinze, C.; Kamrani, S.; Fedelich, B. (2024-08-01). "Creep anisotropy of additively manufactured Inconel-738LC: Combined experiments and microstructure-based modeling". Materials Science and Engineering: A. 907. doi:10.1016/j.msea.2024.146690. ISSN 0921-5093. Unknown parameter
|article-number=ignored (help) - ↑ Morales, Luis Ángel; Bezold, Andreas; Förner, Andreas; Holz, Hendrik; Merle, Benoit; Neumeier, Steffen; Körner, Carolin; Zenk, Christopher H. (2023). "Influence of Cu Addition and Microstructural Configuration on the Creep Resistance and Mechanical Properties of an Fe-Based α/α′/α″ Superalloy". Advanced Engineering Materials. 25 (9): 2201652. doi:10.1002/adem.202201652. ISSN 1527-2648.
- ↑ Semiatin, S. L.; Levkulich, N. C.; Gerlt, A. R. C.; Payton, E. J.; Tiley, J. S.; Zhang, F.; MacKay, R. A.; Miner, R. V.; Gabb, T. P. (2019-05-01). "High-Temperature Static Coarsening of Gamma-Prime Precipitates in NiAlCr-X Single Crystals". Metallurgical and Materials Transactions A. 50 (5): 2289–2301. Bibcode:2019MMTA...50.2289S. doi:10.1007/s11661-018-05104-w. ISSN 1543-1940.
- ↑ Tiley, J. S.; Kim, S. L.; Parthasarathy, T. A.; Loughnane, G. T.; Kublik, R.; Salem, A. A. (2017-02-08). "Quantifying the effect of microstructure variability on the yield strength predictions of Ni-base superalloys". Materials Science and Engineering: A. 685: 178–186. doi:10.1016/j.msea.2016.12.068. ISSN 0921-5093.
- ↑ Krutz, Nicholas J.; Shen, Chen; Fink, Carolin; Miao, Jiashi; Hanlon, Timothy; Zhang, Wei; Alexandrov, Boian; Mills, Michael J. (2021-07-01). "Experimental Calibration & Multi-scale Simulation of Multi-modal γ′ Precipitation in Nickel Superalloys During Continuous Cooling". Metallurgical and Materials Transactions A. 52 (7): 3122–3139. doi:10.1007/s11661-021-06307-4. ISSN 1543-1940.
- ↑ Carter, Jennifer L. W.; Sosa, John M.; Shade, Paul A.; Fraser, Hamish L.; Uchic, Michael D.; Mills, Michael J. (2015-07-29). "The potential link between high angle grain boundary morphology and grain boundary deformation in a nickel-based superalloy". Materials Science and Engineering: A. 640: 280–286. doi:10.1016/j.msea.2015.05.031. ISSN 0921-5093.
- ↑ Krutz, Nicholas; Shen, Chen; Karadge, Mallik; Egan, Ashton J.; Bennett, Justin R.; Hanlon, Timothy; Mills, Michael J. (2020), Tin, Sammy; Hardy, Mark; Clews, Justin; Cormier, Jonathan, eds., "An Approach Toward Understanding Unstable Gamma Prime Precipitate Evolution and Its Effect on Properties", Superalloys 2020, Cham: Springer International Publishing, pp. 691–701, doi:10.1007/978-3-030-51834-9_67, ISBN 978-3-030-51833-2, retrieved 2025-02-18
- ↑ Mukhopadhyay, Semanti; Sriram, Hariharan; DiDomizio, Rich; Detor, Andrew J.; Hayes, Robert W.; Wang, Yunzhi; Mills, Michael J. (2023). "Investigating Deformation Mechanisms in a Creep-Deformed 718-Variant Superalloy". In Ott, Eric A.; Andersson, Joel; Sudbrack, Chantal; Bi, Zhongnan; Bockenstedt, Kevin; Dempster, Ian; Fahrmann, Michael; Jablonski, Paul; Kirka, Michael. Proceedings of the 10th International Symposium on Superalloy 718 and Derivatives. The Minerals, Metals & Materials Series. Cham: Springer Nature Switzerland. pp. 165–178. doi:10.1007/978-3-031-27447-3_11. ISBN 978-3-031-27447-3. Search this book on
- ↑ Krutz, Nicholas; Shen, Chen; Karadge, Mallik; Egan, Ashton J.; Bennett, Justin R.; Hanlon, Timothy; Mills, Michael J. (2020). "An Approach Toward Understanding Unstable Gamma Prime Precipitate Evolution and Its Effect on Properties". In Tin, Sammy; Hardy, Mark; Clews, Justin; Cormier, Jonathan; Feng, Qiang; Marcin, John; O'Brien, Chris; Suzuki, Akane. Superalloys 2020. The Minerals, Metals & Materials Series. Cham: Springer International Publishing. pp. 691–701. doi:10.1007/978-3-030-51834-9_67. ISBN 978-3-030-51834-9. Search this book on
- ↑ Westraadt, Johan Ewald; Goosen, William Edward; Kostka, Aleksander; Wang, Hongcai; Eggeler, Gunther (2022-10-10). "Modified Z-phase formation in a 12% Cr tempered martensite ferritic steel during long-term creep". Materials Science and Engineering: A. 855. arXiv:2206.15070. doi:10.1016/j.msea.2022.143857. ISSN 0921-5093. Unknown parameter
|article-number=ignored (help) - ↑ Wang, Yaozu; Schenk, Johannes; Zhang, Jianliang; Liu, Zhengjian; Wang, Jie; Niu, Lele; Cheng, Qiang (2020-02-15). "Novel sintering indexes to evaluate and correlate the crystal characteristics and compressive strength in magnetite pellets". Powder Technology. 362: 517–526. doi:10.1016/j.powtec.2019.12.022. ISSN 0032-5910.
- ↑ Kuper, Michael W.; Alexandrov, Boian T. (2019-06-01). "Retention of Delta Ferrite in the Heat-Affected Zone of Grade 91 Steel Dissimilar Metal Welds". Metallurgical and Materials Transactions A. 50 (6): 2732–2747. Bibcode:2019MMTA...50.2732K. doi:10.1007/s11661-019-05182-4. ISSN 1543-1940.
- ↑ Esterl, Raphael; Sonnleitner, Markus; Gschöpf, Boris; Schnitzer, Ronald (2019). "Influence of V and Nb Micro-Alloying on Direct Quenched and Tempered Ultra-High Strength Steels". Steel Research International. 90 (6): 1800640. doi:10.1002/srin.201800640. ISSN 1869-344X.
- ↑ Morales, L. A.; Luo, N.; Li, K.; Zenk, C. H.; Körner, C. (2022-08-05). "On stabilizing an α/α′/α″ microstructure in ferritic superalloys". Journal of Alloys and Compounds. 911. doi:10.1016/j.jallcom.2022.164996. ISSN 0925-8388. Unknown parameter
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|pmc=value (help). PMID 33536333 Check|pmid=value (help). - ↑ Klein, Stephanie P.; Schneider, Hannah M.; Perkins, Alden C.; Brown, Kathleen M.; Lynch, Jonathan P. (July 2020). "Multiple Integrated Root Phenotypes Are Associated with Improved Drought Tolerance". Plant Physiology. 183 (3): 1011–1025. doi:10.1104/pp.20.00211. ISSN 0032-0889. PMC 7333687 Check
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|pmid=value (help). - ↑ Brouwer, Sophie M.; Odilbekov, Firuz; Burra, Dharani Dhar; Lenman, Marit; Hedley, Pete E.; Grenville-Briggs, Laura; Alexandersson, Erik; Liljeroth, Erland; Andreasson, Erik (2020-09-01). "Intact salicylic acid signalling is required for potato defence against the necrotrophic fungus Alternaria solani". Plant Molecular Biology. 104 (1): 1–19. Bibcode:2020PMolB.104....1B. doi:10.1007/s11103-020-01019-6. ISSN 1573-5028. PMC 7417411 Check
|pmc=value (help). PMID 32562056 Check|pmid=value (help). - ↑ Hazman, Mohamed Y.; Kabil, Farida F. (2022-01-01). "Maize root responses to drought stress depend on root class and axial position". Journal of Plant Research. 135 (1): 105–120. Bibcode:2022JPlR..135..105H. doi:10.1007/s10265-021-01348-7. ISSN 1618-0860. PMID 34562205 Check
|pmid=value (help). - ↑ Lopez-Valdivia, Ivan; Perkins, Alden C.; Schneider, Hannah M.; Vallebueno-Estrada, Miguel; Burridge, James D.; González-Orozco, Eduardo; Montufar, Aurora; Montiel, Rafael; Lynch, Jonathan P.; Vielle-Calzada, Jean-Philippe (2022-04-26). "Gradual domestication of root traits in the earliest maize from Tehuacán". Proceedings of the National Academy of Sciences. 119 (17): e2110245119. Bibcode:2022PNAS..11910245L. doi:10.1073/pnas.2110245119. PMC 9169935 Check
|pmc=value (help). PMID 35446704 Check|pmid=value (help). - ↑ Sorek, Yonatan; Greenstein, Smadar; Hochberg, Uri (2022). "Seasonal adjustment of leaf embolism resistance and its importance for hydraulic safety in deciduous trees". Physiologia Plantarum. 174 (5): e13785. Bibcode:2022PPlan.174E3785S. doi:10.1111/ppl.13785. ISSN 1399-3054. PMC 9828144 Check
|pmc=value (help). PMID 36151946 Check|pmid=value (help). - ↑ Younuskunju, Shameem; Mohamoud, Yasmin A.; Mathew, Lisa S.; Mayer, Klaus F. X.; Suhre, Karsten; Malek, Joel A. (2023). "Genome-wide association of dry (Tamar) date palm fruit color". The Plant Genome. 16 (4): e20373. doi:10.1002/tpg2.20373. ISSN 1940-3372. PMID 37621134 Check
|pmid=value (help). - ↑ Sorek, Yonatan; Netzer, Yishai; Cohen, Shabtai; Hochberg, Uri (2023-11-21). Dodd, Ian, ed. "Rapid leaf xylem acclimation diminishes the chances of embolism in grapevines". Journal of Experimental Botany. 74 (21): 6836–6846. doi:10.1093/jxb/erad351. ISSN 0022-0957. PMID 37659088 Check
|pmid=value (help). - ↑ Wu, Jing; Kurosaki, Yasunori; Gantsetseg, Batdelger; Ishizuka, Masahide; Sekiyama, Tsuyoshi Thomas; Buyantogtokh, Batjargal; Liu, Jiaqi (2021-10-01). "Estimation of dry vegetation cover and mass from MODIS data: Verification by roughness length and sand saltation threshold". International Journal of Applied Earth Observation and Geoinformation. 102. Bibcode:2021IJAEO.10202417W. doi:10.1016/j.jag.2021.102417. ISSN 1569-8432. Unknown parameter
|article-number=ignored (help) - ↑ Park, Eunhee; Luo, Yaguang; Trouth, Frances; Fonseca, Jorge M. (September 2021). "Charting the Future of E-Grocery: An Evaluation of the Use of Digital Imagery as a Sensory Analysis Tool for Fresh Fruits". Horticulturae. 7 (9): 262. doi:10.3390/horticulturae7090262. ISSN 2311-7524.
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|pmc=value (help). PMID 38580955 Check|pmid=value (help). - ↑ McCahill, Ian W.; Khahani, Bahman; Probert, Cassandra F.; Flockhart, Eleah L.; Abushal, Logayn T.; Gregory, Greg A.; Zhang, Yu; Baumgart, Leo A.; O’Malley, Ronan C. (2024-01-29). "Shoring up the base: the development and regulation of cortical sclerenchyma in grass nodal roots". BioRxiv: The Preprint Server for Biology: 2024.01.25.577257. doi:10.1101/2024.01.25.577257. PMC 10862697 Check
|pmc=value (help). PMID 38352548 Check|pmid=value (help). - ↑ Levin, Kara A.; Tucker, Matthew R.; Strock, Christopher F.; Lynch, Jonathan P.; Mather, Diane E. (2021-02-01). "Three-dimensional imaging reveals that positions of cyst nematode feeding sites relative to xylem vessels differ between susceptible and resistant wheat". Plant Cell Reports. 40 (2): 393–403. Bibcode:2021PCelR..40..393L. doi:10.1007/s00299-020-02641-w. ISSN 1432-203X. PMID 33388893 Check
|pmid=value (help). - ↑ Roper, M. M.; Kerr, R.; Ward, P. R.; Micin, S. F.; Krishnamurthy, P. (2021-11-15). "Changes in soil properties and crop performance on stubble-burned and cultivated water-repellent soils can take many years following reversion to no-till and stubble retention". Geoderma. 402. Bibcode:2021Geode.40215361R. doi:10.1016/j.geoderma.2021.115361. ISSN 0016-7061. Unknown parameter
|article-number=ignored (help) - ↑ Klein, Stephanie P.; Kaeppler, Shawn M.; Brown, Kathleen M.; Lynch, Jonathan P. (2024). "Integrating GWAS with a gene co-expression network better prioritizes candidate genes associated with root metaxylem phenes in maize". The Plant Genome. 17 (3): e20489. doi:10.1002/tpg2.20489. ISSN 1940-3372. PMID 39034891 Check
|pmid=value (help). - ↑ Morozov, Darya; Parvin, Neda; Charlton, Jennifer R.; Bennett, Kevin M. (May 2021). "Mapping kidney tubule diameter ex vivo by diffusion MRI". American Journal of Physiology. Renal Physiology. 320 (5): F934–F946. doi:10.1152/ajprenal.00369.2020. ISSN 1931-857X. PMC 8424553 Check
|pmc=value (help). PMID 33719573 Check|pmid=value (help). - ↑ da Silva Lehner, Miller; Alves, Kaique S.; Del Ponte, Emerson M.; Pethybridge, Sarah J. (February 2022). "Comparing the Fungicide Sensitivity of Sclerotinia sclerotiorum Using Mycelial Growth and Ascospore Germination Assays". Plant Disease. 106 (2): 360–363. Bibcode:2022PlDis.106..360D. doi:10.1094/PDIS-06-21-1234-SC. ISSN 0191-2917. PMID 34524868 Check
|pmid=value (help). - ↑ Kamphuis, Lars G; Klingler, John P; Jacques, Silke; Gao, Ling-Ling; Edwards, Owain R; Singh, Karam B (2019-08-31). "Additive and epistatic interactions between AKR and AIN loci conferring bluegreen aphid resistance and hypersensitivity in Medicago truncatula". Journal of Experimental Botany. 70 (18): 4887–4902. doi:10.1093/jxb/erz222. ISSN 0022-0957. PMC 6760273 Check
|pmc=value (help). PMID 31087095. Archived from the original on 2024-04-22. Retrieved 2025-02-20. Unknown parameter|url-status=ignored (help) - ↑ Devillers, Nicolas; Yan, Xiaojie; Dick, Kristopher J.; Zhang, Qiang; Connor, Laurie (2020-12-01). "Determining an effective slat and gap width of flooring for group sow housing, considering both sow comfort and ease of manure management". Livestock Science. 242. doi:10.1016/j.livsci.2020.104275. hdl:1993/36008. ISSN 1871-1413. Unknown parameter
|article-number=ignored (help) - ↑ Lopez-Valdivia, Ivan; Rangarajan, Harini; Vallebueno-Estrada, Miguel; Lynch, Jonathan P. (2024-09-12), Exploring yield stability and the fitness landscape of maize landrace root phenotypes in silico, bioRxiv, doi:10.1101/2024.09.07.609951, retrieved 2025-02-20
- ↑ Younuskunju, Shameem; Mohamoud, Yasmin A.; Mathew, Lisa Sara; Mayer, Klaus F. X.; Suhre, Karsten; Malek, Joel A. (2025-01-22), Genomic Analysis of Date Palm Fruit Size Traits and Identification of Candidate Genes through GWAS, bioRxiv, doi:10.1101/2025.01.20.633890, retrieved 2025-02-20
- ↑ Klein, Stephanie P.; Reeger, Jenna E.; Kaeppler, Shawn M.; Brown, Kathleen M.; Lynch, Jonathan P. (2020-11-04), Shared genetic architecture underlying root metaxylem phenotypes under drought stress in cereals, bioRxiv, doi:10.1101/2020.11.02.365247, retrieved 2025-02-20
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|pmc=value (help). PMID 32707426 Check|pmid=value (help). - ↑ Moudgil, Rohit; Samra, Gursharan; Ko, Kyung Ae; Vu, Hang Thi; Thomas, Tamlyn N.; Luo, Weijia; Chang, Jiang; Reddy, Anilkumar K.; Fujiwara, Keigi; Abe, Jun-ichi (2020-11-06). "Topoisomerase 2B Decrease Results in Diastolic Dysfunction via p53 and Akt: A Novel Pathway". Frontiers in Cardiovascular Medicine. 7. doi:10.3389/fcvm.2020.594123. ISSN 2297-055X. PMC 7709875 Check
|pmc=value (help). PMID 33330654 Check|pmid=value (help). Unknown parameter|article-number=ignored (help) - ↑ Mutua, Victoria; Cavallo, Francisco; Gershwin, Laurel J. (2021-11-01). "Neutrophil extracellular traps (NETs) in a randomized controlled trial of a combination of antiviral and nonsteroidal anti-inflammatory treatment in a bovine model of respiratory syncytial virus infection". Veterinary Immunology and Immunopathology. 241. doi:10.1016/j.vetimm.2021.110323. ISSN 0165-2427. PMID 34543829 Check
|pmid=value (help). Unknown parameter|article-number=ignored (help) - ↑ Nirasawa, Kei; Hamada, Keisuke; Naraki, Yukiko; Kikkawa, Yamato; Sasaki, Eri; Endo-Takahashi, Yoko; Hamano, Nobuhito; Katagiri, Fumihiko; Nomizu, Motoyoshi; Negishi, Yoichi (2021-01-10). "Development of A2G80 peptide-gene complex for targeted delivery to muscle cells". Journal of Controlled Release. 329: 988–996. doi:10.1016/j.jconrel.2020.10.029. ISSN 0168-3659. PMID 33091529 Check
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- ↑ Parsian, Maryam; Mutlu, Pelin; Yildirim, Ender; Ildiz, Can; Ozen, Can; Gunduz, Ufuk (2022-05-05). "Development of a microfluidic platform to maintain viability of micro-dissected tumor slices in culture". Biomicrofluidics. 16 (3): 034103. doi:10.1063/5.0087532. ISSN 1932-1058. PMC 9076128 Check
|pmc=value (help). PMID 35547184 Check|pmid=value (help). - ↑ Abu, Mohd Nazri; Zaimy, Nurizan; Sahlan, Suwadi Aryadiy; Zulkifle, Nur Atikah; Azlan, Siti Sarra Hazwani Mohd (2019). "Leaves aqueous extract as a cytological stain for buccal cell screening". Healthscope: The Official Research Book of Faculty of Health Sciences, UiTM. 1. ISSN 2735-0649.
- ↑ Tourlomousis, Filippos; Boettcher, William; Ding, Houzhu; Chang, Robert C. (2017). Investigation of Cellular Confinement in 3D Microscale Fibrous Substrates: Fabrication and Metrology. asmedigitalcollection.asme.org. doi:10.1115/MSEC2017-3020. ISBN 978-0-7918-5075-6. Retrieved 2025-02-20. Search this book on
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- ↑ Tourlomousis, Filippos; Boettcher, William; Ding, Houzhu; Chang, Robert C. (2018). "Investigation of Cellular Confinement in Three-Dimensional Microscale Fibrous Substrates: Fabrication and Metrology". Journal of Micro and Nano-Manufacturing. 6 (2). doi:10.1115/1.4038803. Retrieved 2025-02-20. Unknown parameter
|article-number=ignored (help) - ↑ Park, Geon-Tae; Park, Nam-Yung; Ryu, Hoon-Hee; Hohyun Sun, H.; Hwang, Jang-Yeon; Sun, Yang-Kook (2024). "Nano-rods in Ni-rich layered cathodes for practical batteries". Chemical Society Reviews. 53 (23): 11462–11518. doi:10.1039/D3CS01110K. PMID 39380343 Check
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- ↑ Jivanji, Melisha; Forbes, Roy Peter; Sithebe, Humphrey; Westraadt, Johan Ewald (2023-06-01). "Effect of ZrB2 additions on the thermal stability of polycrystalline diamond". International Journal of Refractory Metals and Hard Materials. 113. arXiv:2302.03464. doi:10.1016/j.ijrmhm.2023.106202. ISSN 0263-4368. Unknown parameter
|article-number=ignored (help) - ↑ Church, Jared; Willner, Marjorie R.; Renfro, Brittany R.; Chen, Yun; Diaz, Daniela; Lee, Woo Hyoung; Dutcher, Cari S.; Lundin, Jeffrey G.; Paynter, Danielle M. (2021-02-01). "Impact of Interfacial Tension and Critical Micelle Concentration on Bilgewater Oil Separation". Journal of Water Process Engineering. 39. Bibcode:2021JWPE...3901684C. doi:10.1016/j.jwpe.2020.101684. ISSN 2214-7144. Unknown parameter
|article-number=ignored (help) - ↑ Hossein, Fria; Duan, Cong; Angeli, Panagiota (2024-08-27). "Advanced ultrasound techniques for studying liquid–liquid dispersions in confined impinging jets". Physics of Fluids. 36 (8): 082011. Bibcode:2024PhFl...36h2011H. doi:10.1063/5.0218731. ISSN 1070-6631.
- ↑ Lin, Weitong; Cao, Jin; Hu, Haixiang; Lin, Shaofang; Lv, Qingyang; Ren, Qisen; Hu, Jing (2024-06-01). "A comparative study of corrosion mechanisms in recrystallized and stress-relieved Zircaloy-4 by 3D-FIB tomography and ACOM-TEM". Corrosion Science. 233. Bibcode:2024Corro.23312060L. doi:10.1016/j.corsci.2024.112060. ISSN 0010-938X. Unknown parameter
|article-number=ignored (help) - ↑ Sánchez-Coronilla, Antonio; Martín, Elisa I.; Navas, Javier; Aguilar, Teresa; Gómez-Villarejo, Roberto; Alcántara, Rodrigo; Piñero, Jose Carlos; Fernández-Lorenzo, Concha (2018-02-01). "Experimental and theoretical analysis of NiO nanofluids in presence of surfactants". Journal of Molecular Liquids. 252: 211–217. doi:10.1016/j.molliq.2017.12.140. ISSN 0167-7322.
- ↑ Winston, Philip L.; Middlemas, Scott; Winston, Alexander; Burns, Jatuporn; Tolman, Kevin; Liu, Xiang; Aguiar, Jeffrey (2020-05-01). Aluminum Spent Fuel Performance in Dry Storage Task 4 Aluminum Oxide Sampling of ATR Dry Stored Fuel (Report). Idaho National Lab. (INL), Idaho Falls, ID (United States). OSTI 1642905.
- ↑ Buehler, Carl; Sailer, Bernd; Wanior, Matheus; Abaecherli, Vital; Thoener, Manfred; Schlenga, Klaus; Kauffmann-Weiss, Sandra; Hänisch, Jens; Heilmaier, Martin; Holzapfel, Bernhard (June 2020). "Challenges and Perspectives of the Phase Formation of Internally Oxidized PIT-Type Nb3Sn Conductors". IEEE Transactions on Applied Superconductivity. 30 (4): 1–5. Bibcode:2020ITAS...3069906B. doi:10.1109/TASC.2020.2969906. ISSN 1558-2515.
- ↑ Shahbaznezhad, Mohcen; Dehghanghadikolaei, Amir; Sojoudi, Hossein (2020-12-08). "Optimum Operating Frequency for Electrocoalescence Induced by Pulsed Corona Discharge". ACS Omega. 5 (48): 31000–31010. doi:10.1021/acsomega.0c03948. PMC 7726783 Check
|pmc=value (help). PMID 33324808 Check|pmid=value (help). - ↑ van Rooyen, Melody; Becker, Thorsten; Westraadt, Johan; Marx, Genevéve (January 2019). "Creep Damage Assessment of Ex-Service 12% Cr Power Plant Steel Using Digital Image Correlation and Quantitative Microstructural Evaluation". Materials. 12 (19): 3106. Bibcode:2019Mate...12.3106V. doi:10.3390/ma12193106. ISSN 1996-1944. PMC 6804267 Check
|pmc=value (help). PMID 31554172. - ↑ Watkins, Jennifer K.; Wagner, Adrian R.; Middlemas, Scott C.; Craig Marshall, M.; Metzger, Kathryn; Jaques, Brian J. (2022-02-01). "Enhancing thermal conductivity of UO2 with the addition of UB2 via conventional sintering techniques". Journal of Nuclear Materials. 559. doi:10.1016/j.jnucmat.2021.153421. ISSN 0022-3115. OSTI 1836608. Unknown parameter
|article-number=ignored (help) - ↑ Monte-Mor, L. S.; Trevisan, O. V. (2016-07-12). "Laboratory Study on Carbonate Rocks Characterization and Porosity Changes Due to Co2 Injection". Brazilian Journal of Petroleum and Gas. 10 (2): 105–117. doi:10.5419/bjpg2016-0009. ISSN 1982-0593.
- ↑ Baheti, Varun A.; Kashyap, Sanjay; Kumar, Praveen; Chattopadhyay, Kamanio; Paul, Aloke (2017-06-01). "Bifurcation of the Kirkendall marker plane and the role of Ni and other impurities on the growth of Kirkendall voids in the Cu–Sn system". Acta Materialia. 131: 260–270. Bibcode:2017AcMat.131..260B. doi:10.1016/j.actamat.2017.03.068. ISSN 1359-6454.
- ↑ Ibrahim, Mohammed I. A.; G.C.H. Ferreira; E.A. Venter; Christo J Botha (2024). "Morphological Changes Induced by Imidacloprid, Using a Rat Leydig Cell Line (Lc-540)". doi:10.13140/RG.2.2.24001.88166.
- ↑ Alety, Sridevi R; Lagudu, Uma R. K.; Popuri, R.; Patlolla, Raghuveer; Surisetty, Charan V. V. S.; Babu, S. V. (2017). "Cleaning Solutions for Ultrathin Co Barriers for Advanced Technology Nodes". ECS Journal of Solid State Science and Technology. 6 (9): P671–P680. doi:10.1149/2.0351709jss. ISSN 2162-8769.
- ↑ Sun, Li; Chiang, Po-Ju; Singham, Jonathan Jeevan; Tan, Wei Xin; Jangam, John Samuel Dilip; Lai, Chang Quan (2024-02-05). "An efficient method for multiscale modelling of the mechanical properties of additively manufactured parts with site-specific microstructures". Additive Manufacturing. 81. doi:10.1016/j.addma.2024.103995. ISSN 2214-8604. Unknown parameter
|article-number=ignored (help) - ↑ Kopanja, Lazar; Tadić, Marin; Kralj, Slavko; Žunić, Joviša (2018-08-01). "Shape and aspect ratio analysis of anisotropic magnetic nanochains based on TEM micrographs". Ceramics International. 44 (11): 12340–12351. doi:10.1016/j.ceramint.2018.04.021. ISSN 0272-8842.
- ↑ Diaz, Daniela; Church, Jared; Willner, Marjorie R.; Sarnyai, Stephen; Lundin, Jeffrey G.; Paynter, Danielle M.; Lee, Woo Hyoung (2021-01-20). "Evaluation of Bilgewater Emulsion Stability Using Nondestructive Analytical Methods". Industrial & Engineering Chemistry Research. 60 (2): 1014–1025. doi:10.1021/acs.iecr.0c04814. ISSN 0888-5885.
- ↑ Dharmadhikari, Susheel; Keller, Eric; Ray, Asok; Basak, Amrita (2021-01-01). "A dual-imaging framework for multi-scale measurements of fatigue crack evolution in metallic materials". International Journal of Fatigue. 142. doi:10.1016/j.ijfatigue.2020.105922. ISSN 0142-1123. Unknown parameter
|article-number=ignored (help) - ↑ Brune, R. C.; Hansen, S. R.; Vivek, A.; Sosa, J. M.; Daehn, G. S. (2017-10-01). "Profile indentation pressure evaluation method for impulse manufacturing technologies". Journal of Materials Processing Technology. 248: 185–197. doi:10.1016/j.jmatprotec.2017.05.023. ISSN 0924-0136.
