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The family of technologies collectively known as additive manufacturing (AM) technologies, and often called 3D-printing technologies, is rapidly revolutionizing industrial production. AM’s potential to produce intricate and customized parts starting from a digital 3D model makes it one of the main pillars for the forthcoming Industry 4.0. Thanks to its advantages over traditional manufacturing methodologies, AM finds potential applicability in virtually all production fields. As a natural consequence of this, research in this field is primarily focused on the development of novel materials and techniques for 3D printing. This Special Issue of Technologies, titled “3D Printing Technologies”, aims at promoting the latest knowledge in materials, processes, and applications for AM. It is composed of six contributions, authored by influential scientists in the field of advanced 3D printing. The intended audience includes professors, graduate students, researchers, engineers and specialists working in the field of AM.

electroless metallization --- catalysts --- 3D printing --- RS-333 alloy --- SLM 3DP --- in situ SEM tensile testing --- DIC analysis --- Ncorr --- poly(lactic acid) (PLA) --- shape-memory polymer (SMP) --- fused deposition modeling (FDM) --- infill pattern --- microrobots --- 3D printed --- drug delivery --- hydrogels --- alginate --- prototyping --- surface finishing --- physical vapor deposition --- mechanical properties --- composites --- fused deposition modeling --- surface quality --- chest wall --- surgery

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This book highlights the differences, in terms of neoplastic dissemination pathways, between various types of thoracic cancers. It presents and discusses a comprehensive schematic overview of tumors of the lung parenchyma, of the mediastinum, of the pleura, and of the chest wall. For each tumor, it details the local spread and the lymphatic and vascular dissemination, and it describes the challenging staging of lung tumors with mutations. Illustrations and artwork enrich the content and help readers to understand and visualize tumor spread. The book is of great interest to professionals involved in the study, diagnosis and treatment of thoracic pathologies, as well as to residents in radiology, oncology and pulmonology.

Radiology. --- Oncology  . --- Thoracic surgery. --- Imaging / Radiology. --- Oncology. --- Thoracic Surgery. --- Thoracic surgery --- Thoracic surgeons --- Tumors --- Radiological physics --- Physics --- Radiation --- Chest --- Cancer. --- Thoracic Neoplasms. --- Thymus Neoplasms. --- Pleura. --- Thoracic Wall. --- Carcinoma, Non-Small-Cell Lung. --- Nonsmall Cell Lung Cancer --- Carcinoma, Non-Small Cell Lung --- Non-Small Cell Lung Cancer --- Non-Small-Cell Lung Carcinoma --- Carcinoma, Non Small Cell Lung --- Carcinomas, Non-Small-Cell Lung --- Lung Carcinoma, Non-Small-Cell --- Lung Carcinomas, Non-Small-Cell --- Non Small Cell Lung Carcinoma --- Non-Small-Cell Lung Carcinomas --- Lung Neoplasms --- Carcinoma, Small Cell --- Chest Wall --- Wall, Chest --- Wall, Thoracic --- Parietal Pleura --- Visceral Pleura --- Pleura, Parietal --- Pleura, Visceral --- Pleurisy --- Cancer of the Thymus --- Neoplasms, Thymic --- Neoplasms, Thymus --- Thymic Cancer --- Thymic Neoplasms --- Thymic Tumors --- Cancer of Thymus --- Thymus Cancer --- Thymus Tumors --- Cancer, Thymic --- Cancer, Thymus --- Cancers, Thymic --- Cancers, Thymus --- Neoplasm, Thymic --- Neoplasm, Thymus --- Thymic Cancers --- Thymic Neoplasm --- Thymic Tumor --- Thymus Cancers --- Thymus Neoplasm --- Thymus Tumor --- Tumor, Thymic --- Tumor, Thymus --- Tumors, Thymic --- Tumors, Thymus --- Neoplasm, Thoracic --- Neoplasms, Thoracic --- Thoracic Neoplasm --- Non-Small Cell Lung Carcinoma