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3D Printing for Energy Applications

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Название:
3D Printing for Energy Applications
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unrecognised / на английском языке
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неизвестен
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3D Printing for Energy Applications: краткое содержание, описание и аннотация

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Explore current and future perspectives of 3D printing for the fabrication of high value-added complex devices 3D Printing for Energy Applications Split into three sections, the book covers the 3D printing of functional materials before delving into the 3D printing of energy devices. It closes with printing challenges in the production of complex objects. It also presents an interesting perspective on the future of 3D printing of complex devices.
Readers will also benefit from the inclusion of
A thorough introduction to 3D printing of functional materials, including metals, ceramics, and composites An exploration of 3D printing challenges for production of complex objects, including computational design, multimaterials, tailoring AM components, and volumetric AM Practical discussions of 3D printing of energy devices, including batteries, supercaps, solar panels, fuel cells, turbomachinery, thermoelectrics, and CCUS Perfect for materials scientists,
will also earn a place in the libraries of graduate students in engineering, chemistry, and material sciences seeking a one-stop reference for current and future perspectives on 3D printing of high value-added complex devices.

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7 Chapter 6Figure 6.1 Schematic overview of the correlations between the used factors t...Figure 6.2 Deformation mechanism and SFE map of steel with 0.3 wt%C and at 2...Figure 6.3 Heat map of the investigated process parameter combinations with ...Figure 6.4 Color‐coded relative densities dependent on the different process...Figure 6.5 Actual resulting strut diameter depending on the track width comp...Figure 6.6 Block diagram showing the mean value of the grain area depending ...Figure 6.7 (a) HV 0.1 hardness map depending on the preheating temperature (...Figure 6.8 (a) Fracture surface of the tensile test samples are fracture of ...Figure 6.9 (a) Photo of the BASE and BASE+1Al at 40% compression during a la...

8 Chapter 7Figure 7.1 CAL volumetric fabrication. (a) Underlying concept: patterned ill...Figure 7.2 Performance of CAL. (a) Beer–Lambert model of light propagation t...

9 Chapter 8Figure 8.1 Schematic illustration [4] of 3D printed interdigitated microbatt...Figure 8.2 Schematic of battery preparation using a LiMn 0.21Fe 0.79PO 4‐based ...Figure 8.3 Schematics and SEM images of 3D‐printed hierarchical porous frame...Figure 8.4 Schematics and SEM images of four types of 3D‐printed hierarchica...Figure 8.5 Schematic illustration and optical images of 3D‐printed self‐supp...Figure 8.6 Schematic and SEM images of three types of 3D‐printed LFP electro...Figure 8.7 Schematic of the fabrication of 3D micro‐architected battery elec...Figure 8.8 Schematic illustration and SEM images of 3D‐printed Ni/r‐GO frame...Figure 8.9 Schematic of the 3D‐printed interdigitated LTO and LFP electrodes...Figure 8.10 SEM images of the annealed LFP/rGO electrodes.Figure 8.11 Optical images of a 3D‐printed interdigitated full cell battery ...Figure 8.12 Schematic of a process to 3D‐print solid electrolyte structures....Figure 8.13 Conceptual illustration and optical images of the 3D printing of...Figure 8.14 Three‐dimensional printed glasses with an electronic darkening L...

10 Chapter 9Figure 9.1 Charge/discharge profiles for ideal electrostatic capacitors, pse...Figure 9.2 Complete capacitor devices fabricated only by additive methods: (...Figure 9.3 Schematic overview of capacitor configurations in 2D and next‐gen...

11 Chapter 10Figure 10.1 (a) Schematic illustration of direct‐write assembly. (b) microgr...Figure 10.2 Inkjet printing. (a) Schematic illustration of the inkjet printi...Figure 10.3 The complete 14‐layer tandem stack (upper left) along with struc...Figure 10.4 Temperatures of DSC module without and with water cooling under ...Figure 10.5 (a) Schematic illustration of the external light trap. By concen...Figure 10.6 (a) A 3D‐printed compound parabolic concentrator (CPC) before an...Figure 10.7 (a) J – V characteristics of the bare solar cell (with the cage us...

12 Chapter 11Figure 11.1 (a) Scheme of a 5‐cells SOFC stack, (b) components of a SOFC sin...Figure 11.2 (a) Hybridization of SLA and robocasting technologies within the...Figure 11.3 Design of a fully 3D printed stack of Cell3Ditor project. From r...Figure 11.4 Schematics of a PEM fuel cell stack operation and components whe...Figure 11.5 Representation of the flow fields design for PEMFC inspired by t...Figure 11.6 A schematic of a microbial electrolysis cell (MEC) [114].

13 Chapter 12Figure 12.1 Characteristics of DED and LPBF processes [1].Figure 12.2 Exemplary process chains (top: repair of turbine blades, bottom:...Figure 12.3 Process chain A: defect areas (left, [6]) must be machined (midd...Figure 12.4 Defect areas are digitized by optical metrology (left). The resu...Figure 12.5 In parallel the original CAD data (left) have to be prepared (mi...Figure 12.6 With the stl file of captured data and master (left) best fit an...Figure 12.7 Volumes to be restored are deposited by using a coaxial powder n...Figure 12.8 Approaches of DED based hybrid AM [17].Figure 12.9 Position of the nozzle ring inside of the turbocharger and furth...Figure 12.10 Overview of components and additional hardware within the hybri...Figure 12.11 Influence of laser beam diameter on geometrical accuracy.Figure 12.12 Procedure of joining the top ring on top of the vanes.

14 Chapter 13Figure 13.1 (a) ZT for common TE materials as a function of working temperat...Figure 13.2 Figure 13.3 (a) Schematic illustration of fabrication of SLA 3D printed samp...Figure 13.4 (a) Schematic illustration of fabrication of 3D printed samples....

15 Chapter 14Figure 14.1 Flowsheet of a commercial CO 2capture plant [4].Figure 14.2 Photograph of concrete absorber (left) at TCM [11].Figure 14.3 (a) Design of contactor surface [12]. (b) 3D printed sacrifi...

Guide

1 Cover

2 Table of Contents

3 Begin Reading

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