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- Radioactive waste (1)
- Radionuklide (1)
- Railway (1)
- Railway components (1)
- Railway damage (1)
- Raman microscopy (1)
- Raman spectroscopy (1)
- Raman-spectroscopy (1)
- Randschichtanalyse (1)
- Ratgeber zur Ermittlung gefährdungsbezogener Arbeitsschutzmaßnahmen im Betrieb (1)
- Reaktive Wände (1)
- Reaktives Brandschutzsystem (1)
- Recovery (1)
- Reference Material (1)
- Reference material (1)
- Referenzmaterial (1)
- Referenzorganismus (1)
- Referenzverfahren (1)
- Regulations codes and standards (RCS) (1)
- Reibung (1)
- Reinforcement (1)
- Rekonstruktionsrechnung (1)
- Relaxation tests (1)
- Reliability (1)
- Research report (1)
- Residence time (1)
- Resin transfer moulding (1)
- Resistance (1)
- Resource efficiency (1)
- Respiration sensor (1)
- Ressourcenrückgewinnung (1)
- Rheological properties (1)
- Ridis amorphous fraction (1)
- Rigid amorphous fraction (1)
- Ring polymers (1)
- Risk analysis (1)
- Risk management (1)
- Robots (1)
- Robust tests (1)
- Rock inhabiting fungi-phototroph symbioses (1)
- Rohstoffliches Recycling (1)
- Rubber (1)
- Rubber seal (1)
- Röntgenfluoreszenzanalyse (RFA) (1)
- Röntgenstreuverfahren (1)
- Rötel (1)
- SAFT reconstruction (1)
- SCC (1)
- SEC-gradients (1)
- SEM (1)
- SIMS (1)
- SPCC (1)
- SRCT (1)
- SRV Test (1)
- Safety assessment (1)
- Safety characteristics (1)
- Safety distances (1)
- Sauerstoff (1)
- Scanner (1)
- Scattered axle impulses (1)
- Schadenskunde (1)
- Schadenstoleranz (1)
- Schimmel (1)
- Schubversuch (1)
- Schwingung (1)
- Scientific research (1)
- Scuffing (1)
- Segmental dynamics (1)
- Selbstentzündung (1)
- Selective Laser Melting (SLM) (1)
- Sensor (1)
- Sensoren (1)
- Separate collection (1)
- Separation membranes (1)
- Setting (1)
- Sewage sludge (1)
- Shale (1)
- Shipbuilding (1)
- Short-range order (1)
- Silica (1)
- Silica glass (1)
- Simplified models (1)
- Sinterglaskeramik (1)
- Sintermechanismen (1)
- Sintermodelle (1)
- Sloshing effect (1)
- Sloshing, transition matrix approach (1)
- Smart Geosynthetics (1)
- Smarte Aktoren (1)
- Smarte Sensoren (1)
- Smoldering (1)
- Social life cycle assessment (SLCA) (1)
- Soft track elements (1)
- Soil formation (1)
- Sol-Gel (1)
- Sol-gel coating (1)
- Solid volume fraction (1)
- Soot (1)
- Sound damping (1)
- Sound velocity (1)
- Spannglieder (1)
- Spannkanäle (1)
- Spannkraft (1)
- Spannstahl (1)
- Spannungsrisskorrosion (1)
- Speciation of Gd-containing MRI contrast agents (1)
- Spectroscopy (1)
- Speichel (1)
- Spent Fuel (1)
- Spent fuel (1)
- Spice (1)
- Spill fires (1)
- Stahl (1)
- Star polymers (1)
- State-of-the-art (1)
- Static and dynamic reassessment (1)
- Statische Druck- und Schubbeanspruchung (1)
- Statistical method (1)
- Statistics (1)
- Steady burning (1)
- Steering forces (1)
- Storage system components (1)
- Storing spent fuel (1)
- Strain measurement (1)
- Structural Health Monitoring (1)
- Structural engineering (1)
- Structural safety (1)
- Structure-properties relationships (1)
- Subaerial biofilms (1)
- Subspace methods (1)
- Subsurface defects (1)
- Surface (1)
- Surface emissive power (1)
- Surface functionalization (1)
- Surface integrity (1)
- Synchrotron (1)
- Synchrotron radiation (1)
- Synchrotron refraction computed tomography (1)
- Synergy (1)
- Syngenite (1)
- TDLAS (1)
- TEKKEN-Test (1)
- TGA-MS (1)
- TMR (1)
- Tandem MS (1)
- Tausalz (1)
- TeO2 (1)
- Technische Keramik (1)
- Teilsicherheitsbeiwert (1)
- Tellurium dioxide crystals (1)
- Temparatur modulated Flash DSC (1)
- Temperature effect (1)
- Temperature modulated DSC (1)
- Temperature rising elution fractionation (TREF) (1)
- Terahertz spectroscopy (1)
- Test procedures (1)
- Testing of explosive substances (1)
- Thematic piston ring (1)
- Thermochemisch (1)
- Thermography (1)
- Thermomechanical Fatigue (TMF) (1)
- Thermophysikalische Eigenschaften (1)
- Thin film (1)
- Thin-film solar cells (1)
- Thomas steel embrittlement (1)
- Time of flight (1)
- Time-of-flight mass spectrometry (TOF-MS) (1)
- Time-of-flight mass spectroscopy (1)
- Time-resolved scattering (1)
- Tissue (1)
- Titania (1)
- Toxicity (1)
- Track beam (1)
- Train excitation (1)
- Transition matrix approach (1)
- Transport casks (1)
- Transportation energy (1)
- Tribo-system (1)
- Tribology (1)
- Trinkwasser (1)
- UL 94 (1)
- USAXS (1)
- Ultraschall (1)
- Ultrasonic techniques (1)
- Ultrasonic-assisted milling (1)
- Ultrasonics (1)
- Ultrasound (1)
- Umwelteinflüsse (1)
- Ungleichgewicht (1)
- Unknown storage duration (1)
- Unsicherheit (1)
- Uran (1)
- Uranium (1)
- Uranium mining (1)
- VIS-spectrophotometry (1)
- VUV nanosecond laser ablation (1)
- Verbundfestigkeit (1)
- Verbundwerkstoff (1)
- Verfahrenskombination (1)
- Verfahrenstechnik (1)
- Verfahrensvalidierung (1)
- Verpressanker (1)
- Verrußung (1)
- Versagensmechanismen (1)
- Verschleiß (1)
- Verschleißschutzschichten (1)
- Vertical cylindrical tanks (1)
- Vertical displacement (1)
- Very long term storage (1)
- Viscosities (1)
- Viscosity grade (1)
- Viscosity index (1)
- Visible spectrophotometry (1)
- Viskoses Sintern (1)
- Voids (1)
- Volume Fraction (1)
- Vorschriften (1)
- Vulnerability (1)
- WAXS (1)
- Wasserstoff (1)
- Wasserstofftechnologie (1)
- Waste treatment (1)
- Wastewater (1)
- Water content (1)
- Water/cement ratio (1)
- Wavenumber method (1)
- Wear resistance (1)
- Wear scar (1)
- Weathering (1)
- Web presentation (1)
- Werkstoff (1)
- Werkstoffe (1)
- Werkstoffeigenschaften (1)
- Werkstoffkennwerte (1)
- Werkstoffmechanische Prüfung (1)
- Werkstoffprüfung (1)
- Wheel/track interaction (1)
- Wide angle X-ray scattering (1)
- Wiedernutzung von Fundamenten (1)
- Windenergie (1)
- Wirbelstrom (1)
- Wood Protection (1)
- Writing Ink (1)
- X-ray (1)
- X-ray Computed Tomography (CT) (1)
- X-ray Computed tomography (1)
- X-ray diffraction (1)
- X-ray diffraction microscopy (1)
- X-ray fluorescence spectroscopy (1)
- X-ray photoelectron spectroscopy (1)
- X-ray refraction (1)
- X-ray refraction radiography (1)
- X-ray refraction tomography (1)
- X-ray refraction topography (1)
- XPS (1)
- XRF (1)
- Yaw resistance (1)
- Yaw stiffness (1)
- Yield stress (1)
- Zeichnung (1)
- Zement (1)
- Zerstörungsfreie Materialcharakterisierung (1)
- ZfP (1)
- ZfP im Bauwesen (1)
- Ziegelmauerwerk (1)
- Zielpräparation (1)
- Zink (1)
- Zuverlässigkeit (1)
- Zuverlässigkeitstheorie (1)
- historical earthen building (1)
- material characterisation (1)
- natural ventilation (1)
- numerische Modellierung (1)
- radioactive waste (1)
- rammed earth (1)
- static monitoring (1)
- Überwachungsverfahren (1)
Organisationseinheit der BAM
- 4 Material und Umwelt (35)
- 7 Bauwerkssicherheit (24)
- 8 Zerstörungsfreie Prüfung (18)
- 4.5 Kunst- und Kulturgutanalyse (16)
- 3 Gefahrgutumschließungen; Energiespeicher (14)
- 6 Materialchemie (12)
- 5 Werkstofftechnik (11)
- 4.3 Schadstofftransfer und Umwelttechnologien (9)
- 7.5 Technische Eigenschaften von Polymerwerkstoffen (9)
- 3.2 Gefahrguttanks und Unfallmechanik (8)
The introduction of hydrogen as a safe energy carrier needs a robust knowledge base, tools for the design and safety assessment of hydrogen technologies built on it, and an internationally harmonized set of standards and regulations. Many of the innovative technologies imply hydrogen at high pressures and/or cryogenic temperatures, with which private users come into contact for the first time in distributed applications. In order to avoid over-conservative, expensive safety solutions, while at the same time demonstrating the usability and safety of hydrogen applications and maintaining acceptance for the technology, safety research must also keep pace with, or better yet anticipate, trends in technological development. Thus, this overview article describes not only the current state of knowledge and technology regarding hydrogen safety, but also its further development.
A new titanium alloy improving the operation of implants additively manufactured and including laterally closed lattice structures is proposed. The new alloy possesses an increased affinity to the bone. The measured bone–interface implant (BII) of less than 10 mm and bone–implant contact (BIC) of 95% demonstrated an excellent osseointegration. Furthermore, since additive manufacturing naturally leads to a high-roughness surface finish, the wettability of the implant is increased. The combination of these factors is pushing ossification beyond its natural limits. In addition, the quality and speed of the ossification and osseointegration in/around laterally closed lattice implants open the possibility of bone spline key of prostheses. This enables the stabilization of the implant into the bone while keeping the possibility of punctual hooks allowing the implant to be removed more easily if required.
Um den Klimawandel wirksam zu bekämpfen, ist es entscheidend, fossile Brennstoffe durch erneuerbare Energiequellen wie Wind-, Solar- und Wasserkraft sowie alternative Energieträger, beispielsweise grünen Wasserstoff, zu ersetzen. Offshore-Windenergie spielt hierbei eine zentrale Rolle, da sie dank der Kombination aus globaler Verfügbarkeit, relativ geringen Betriebskosten und fortgeschrittenem technischen Entwicklungsstand besonders geeignet ist, zur regenerativen Stromerzeugung beizutragen. Sie ist zudem ein Schlüsselelement für die Umsetzung des Europäischen Green Deals, der das Ziel verfolgt, bis 2050 Klimaneutralität in der EU zu erreichen. Expertenschätzungen zufolge ist eine Steigerung der aktuellen Kapazität von 25 GW im Jahr 2020 auf etwa 450 GW notwendig, um diese ambitionierten Ziele zu erfüllen.
Bei der Entwicklung zukünftiger Offshore-Windparks, insbesondere in tieferen Gewässern, gewinnen Jacket-Gründungsstrukturen an Bedeutung. Diese Strukturen, die eine höhere Steifigkeit bei geringerem Materialeinsatz im Vergleich zu den bisher vorherrschenden Monopile-Gründungen bieten, basieren auf komplexen, räumlich aufgelösten Konstruktionen, die ähnlich den Öl- und Gasplattformen entwickelt werden. Die Herstellung der Jacketknoten, die bislang überwiegend manuell geschweißt wurden, birgt erhebliches Optimierungspotential. Durch Automatisierung und Digitalisierung der Fertigungsprozesse könnten nicht nur die Effizienz gesteigert, sondern auch die Qualität der Endprodukte durch präzise Überwachung und Kontrolle der Produktionsparameter verbessert werden. Diese technologischen Fortschritte sind für die Skalierung der Offshore-Windenergie und die Erreichung der Klimaziele von entscheidender Bedeutung.
Chapter 6: Case studies
(2023)
The through-life management of our constantly ageing infrastructure is a basic requirement in order to ensure their structural safety and serviceability. Each structure experiences deterioration processes with time leading to a decrease of structural safety and serviceability. The design of new structures considers the expected deterioration for a defined period, the design service life. However, a frequent survey of structural safety controlling structural condition should be mandatory and a maintenance plan should be an integral part of the design. In addition, many structures have exceeded their design service life already or are very close to it leading to an increasing demand for condition assessment. On the one hand, assumptions made during design are not valid any more due to change of the loads, e.g., increasing traffic loads in terms of number and weights. On the other hand, design codes evolved over time in such a way that existing structures do not comply with today’s standards. In all these cases, the through-life management is an important tool to maintain the accessibility of existing structures with known reliability.
In line with the new Model Code for Concrete Structures, which includes guidance for both – design of new structures and assessment of existing structures, the Task Group 3.3 focused on the compilation of a state-of-the-art guideline for the through-life management of existing concrete structures, including:
Data acquisition by testing and monitoring techniques;
Condition assessment for the evaluation of existing structures;
Performance prediction using advanced methods;
Decision-making procedures to perform a complete assessment of existing structure.
The overall objective of the through-life management is the assessment of the current condition and the estimation of the remaining service life under consideration of all boundary conditions.
Interest in the type of skin used in scriptural materials and preparation methods increased from the nineteenth into the twentieth century. This was due partly to the number of newly discovered fragments and to the invention of new instruments and scientific procedures to identify animal skins and produce qualitative means to demonstrate specific preparation reagents and techniques. The invention of various means of analyzing the DNA of organic materials brought about a revolution in archaeology and in conservation. Difficulties in overcoming contamination of archaeological samples resulted in a number of controversies but also produced advances and improvement in the techniques of ancient DNA analysis and interpretation of results.
Ancient Inks
(2023)
In the last decade scientists and scholars have accumulated more knowledge on black ink used for writing in Antiquity and the early Middle Ages.
Ready availability of non-destructive testing instruments employed in interdisciplinary projects on historic manuscripts have made it possible to determine the composition of ink and to compare it with the extant records.
Physico-chemical analyses of writing materials offer insight into various questions associated with historical, cultural, and conservational aspects of manuscript studies. The catalogue of questions that can be addressed with these methods includes authenticity, dating, the attribution of various parts of the text to different scribes and the relation between the primary and secondary texts. Similarly, preservation of the manuscripts requires knowledge of the composition of the original materials versus old repairs, identification of damage, as well as recognition of natural aging and degradation processes. The material sciences can contribute data about the chemical compositions of the writing materials, elucidation of the techniques of their production and the absolute age of organic components, as well as characterization of corrosion effects, evaluation of conservation treatment, and monitoring of the preservation state.
The current state of preservation of the DSS results from the synergetic effect of various factors such as great age, post-discovery treatments, poor storage conditions, environmental influences and exhibitions. With rare exceptions, neither the initial state nor a list of the treatments performed on each DSS fragment is known. Reconstruction of the individual fragment history will have to rely upon advanced analytical techniques to identify the treatments and their effects.
Management of the scrolls may be divided roughly into three periods: a) the scholarly archiving period, from 1948 to the mid-1960s; b) first attempts at conservation, from the mid-1960s to late-1980s; c) Israel Antiquities Authority Scrolls Lab, from 1991 onwards.
The structure and composition of ancient gold objects retain information about their long history of manufacture, from the exploitation of the ore to the finishing touches, as well as evidence of their use, deposition, and degradation. By developing an efficient analytical strategy, it is possible to retrieve that information. This chapter sets the necessary foundation 131to explore fully the analytical results presented in the following chapters of this volume. The techniques employed in the analyses of the Egyptian jewellery are described and the analytical parameters provided. For more established techniques, only brief introductions are presented, while more recent developments are presented in greater detail.
Only the nano-scaled structure of the nanocomposite and the dispersion of nanoparticles within the polymer matrix harbor multifunctional potential including superior fire retardancy. Thus, this chapter focuses on the dispersion of nanoplates, based mainly on studies of layered silicates and graphene/graphene-related nanoplates. The nanostructure and properties of the nanocomposites are dependent mainly on thermodynamic and kinetic factors during preparation. Improving nano-dispersion often directly improves flame retardancy. Therefore, the modification of the nanoplates as well as the preparation of nanocomposites becomes very important to control this dispersion. The dispersion of nanoplates functions as a prerequisite for the formation of an efficient protective layer, changing the melt flow and dripping behavior, or the improvement of the char properties.
Sustainability has become the conscientious and future-oriented principle of modern resource management and environmental protection because caring for the future is tantamount to providing manageable and healthy surroundings for ourselves. For the foreseeable future, geotechnical and environmental engineers must therefore be concerned with ensuring a healthy balance between extraction, processing, manufacturing, utilization, recycling, and disposal of materials and products.
We discuss the non-linear stress–strain behavior of microcracked polycrystalline ceramics under uniaxial tension and compression (displacement control).
Micromechanics explanation and modeling of its basic features, such as non-linearity and hysteresis in stress–strain curves, are developed, with stable microcrack propagation and “roughness” of intergranular cracks playing critical roles in tension and crack sliding playing a critical role in compression. Experiments involving complex loading histories are explained, and themodel is shown to reproduce the basic features of the observed stress–strain curves.
Lehmmauerwerk bietet sich aufgrund seiner zahlreichen ökologischen Vorteile für die Errichtung klimafreundlicher und ressourcenschonender Gebäude an. Um den Anwendungsbereich tragenden Lehmmauerwerks durch eine zeitgemäße Nachweisführung zu erweitern, werden in diesem Beitrag Grundlagen für die Entwicklung eines eurocodekonformen Bemessungskonzepts erarbeitet. Hierzu werden die Ergebnisse umfangreicher experimenteller Untersuchungen an Lehmmauerwerk sowie Lehmsteinen und -mörteln nach Konditionierung bei unterschiedlichen Klimata vorgestellt. Darauf aufbauend erfolgt eine Traglastanalyse druckbeanspruchter Lehmmauerwerkswände mittels numerischer und analytischer Methoden. Die daraus gewonnenen Erkenntnisse werden abschließend in einen an DIN~EN~1996-3/NA angelehnten Bemessungsvorschlag überführt, welcher die materialspezifischen Besonderheiten von Lehmmauerwerk berücksichtigt und eine fundierte Grundlage für eine wirtschaftliche und zuverlässige Nachweisführung darstellt.
Irradiation of solid surfaces with intense ultrashort laser pulses represents a unique way of depositing energy into materials. It allows to realize states of extreme electronic excitation and/or very high temperature and pressure and to drive materials close to and beyond fundamental stability limits. As a consequence, structural changes and phase transitions often occur along unusual pathways and under strongly nonequilibrium conditions. Due to the inherent multiscale nature—both temporally and spatially—of these irreversible processes, their direct experimental observation requires techniques that combine high temporal resolution with the appropriate spatial resolution and the capability to obtain good quality data on a single pulse/event basis. In this respect, fourth-generation light sources, namely, short wavelength and short pulse free electron lasers (FELs), are offering new and fascinating possibilities. As an example, this chapter will discuss the results of scattering experiments carried out at the FLASH free electron laser at DESY (Hamburg, Germany), which allowed us to resolve laser-induced structure formation at surfaces on the nanometer to submicron length scale and in temporal regimes ranging from picoseconds to several nanoseconds with sub-picosecond resolution.
Surface nanostructures provide the possibility to create and tailor surface functionalities mainly via controlling their topography along with other chemical and physical material properties. One of the most appealing technologies for surface functionalization via micro- and nanostructuring is based on laser processing. This can be done either via direct contour-shaping of the irradiated material using a tightly focused laser beam or in a self-ordered way that allows employing larger laser beam diameters along with areal scanning to create a variety of laser-induced periodic surface structures (LIPSS). For the latter approach, particularly ultrashort pulsed lasers have recently pushed the borders across long-lasting limitations regarding the minimum achievable feature sizes and additionally boosted up the production times. This chapter reviews the plethora of recently investigated applications of LIPSS—for example, via imposing diffractive or plasmonic structural colors, the management of liquids and surface wetting properties, biomedical and bioinspired functionalities, beneficial effects in tribology for reducing friction and wear, the manipulation of optical scattering and absorption in photovoltaics, or the modification of magnetic or superconducting surface properties in other energy applications. The footprint of the LIPSS-based technology is explored in detail regarding the current state of industrialization, including an analysis of the market and associated LIPSS production costs.
Der Beitrag beschäftigt sich mit zerstörungsfreien Untersuchungen an den Farbmitteln früher Bauhauszeichnungen. Mit welchen Farbmitteln wurden diese Zeichnungen gestaltet? Wurden hier neueste Zubereitungen genutzt, von denen viele im ersten Drittel des 20. Jahrhunderts gerade auf den Markt kamen, oder fanden – der ebenfalls am Bauhaus propagierten Materialökonomie folgend – althergebrachte Materialien Verwendung, die günstiger zu beschaffen waren? Weitere Fragen widmen sich dem Themenkomplex Original, Kopie und Nachahmung sowie der Auffindung von Fälschungen. Restauratorische, konservatorische und kuratorische Fragestellungen und Entscheidungen sind grundsätzlich damit verknüpft. Zwölf exemplarisch vorgestellte Zeichnungen ermöglichen einen guten Über blick über die verwendeten Farbmittel des frühen Bauhauses von 1919 bis 1925. Trotz der Vielfalt der betrachteten Studien, Entwürfen und Arbeitsblättern, ergibt sich ein homogenes Gesamtbild. Bis auf wenige Ausnahmen dominieren anorganische Pigmente die Farbmittelpalette. Dieser Befund wird durch eine weitaus größere Stichprobe materialtechnologisch untersuchter Zeichnungen aus dem Bestand des Bauhaus-Museums Weimar bestätigt
The fungus Botrytis cinerea (Botryotinia fuckeliana) infects more than 500 plant species and causes a wide range of symptoms: soft rots, accompanied by collapse and water-soaking of tissues followed by the appearance of gray masses of conidia on leaves and soft fruits (gray mold), and spots that may turn brown to full-scale soft rotting on flower petals (Botrytis blight). In general, B. cinerea is responsible for severe economic losses that are either due to the damage of growing plants in the field or the rot of harvested fruits, flowers, and vegetables during storage under cold and humid conditions. B. cinerea has adapted to the plant host and its environment by evolving strategies to use plant tissues for proliferation in terms of a necrotrophic lifestyle, and to survive biotic stresses (host responses) as well as abiotic factors of the host’s environment such as sunlight and concomitant stresses. B. cinerea maintains a complex regulatory network of light-sensitive proteins and signal transduction pathways to use light for coordinating stress responses, virulence, and reproduction. Different light-controlled reproduction cycles enable B. cinerea to live in moderate climate zones by infecting and propagating in summer and resting in winter when green host tissues are unavailable.
Process analytical technology (PAT) is a cross-sectional technology and thus essential for future smart production. While in the past decades, the focus of process optimization strategies was on increasing efficiency, in the future, the focus will be on the sustainability of a production and its products. In addition, products will be increasingly personalized in order to match the property profile exactly to the intended use. PAT is able to provide context-sensitive information at the molecular level for process control. Spectroscopic sensors can determine inline and simultaneously both the chemical composition and its sub-microscopic morphology. The article will focus on the optical spectroscopy and therefore starts with a brief introduction on the basic concepts of molecular spectroscopy. In addition, the particularities of measuring liquids, surfaces, or particulate systems in PAT applications are described. This should enable the reader to select the appropriate method for the specific problem. Many examples from everyday industrial practice illustrate the applications. The areas covered are the manufacturing industry, process and pharmaceutical industry, food industry, as well as biotechnology and medical technology. Future will show that PAT is especially important for applications in the field of medicine (point of care) circular economy (recycling, water–wastewater, etc.). It is important to emphasize that sustainability in industrial production can only be successful with an inter- and transdisciplinary close exchange between the different disciplines.
Calibration-free methods in laser-induced breakdown spectroscopy, CF LIBS, serve as an alternative to calibration-based LIBS techniques. Their major advantage is the ability for fast chemical analysis in situations where matrix-matched standards are not readily available (as, e.g., in the analysis of biological materials and remote analysis) or amount of samples are limited. Their main applications are in the industry, geology, biology, archeology, and even space exploration. This chapter overviews the principle of operation and performance of CF LIBS techniques.
Per- and polyfluoroalkyl substances (PFAS) are a group of more than 4700 anionic and cationic anthrophonic substances which have been used extensively in a variety of products and industries due to their inert chemical stability and resistance to degradation by heat or acids. As a result of continuous use, mainly in aviation firefighting foams, thousands of industrial and military installations have been found to contain contaminated soil and groundwater resources. However, because of the continuous use of fluorinated consumer products, also effluents and sewage sludge from wastewater treatment plants (WWTPs) have been shown to be an important source of PFAS contamination into the aquatic environment. Resulting from recent stricter regulations and restrictions in the last years on the use of long chain (≥C8) PFAS, there is a significant shift in the chemical industry towards production of short (C4-C7) and ultrashort (C1-C3) chain alternatives. With the amendment of the Sewage Sludge Ordinance in 2017 the German legislation banned sewage sludge application on agricultural land, and by 2029/2032 sewage sludge will be completely prohibited from agricultural application. While environmental exposure of organic pollutants like PFAS, pesticides and pharmaceuticals are no longer desirable, phosphorus (P) from sewage sludge must still be used to produce high-quality P-fertilizers for a circular economy. Currently, plant-available P-fertilizers from sewage sludge/wastewater can be produced using a variety of treatment approaches including precipitation, leaching, and thermal treatment. However, the fate of legacy and emerging PFAS compounds during P leaching, precipitation and treatment from sewage sludge and wastewater is for the most parts still unknown.
Nickel-Iron-Alloy Modification to Enhance Additively Welded Microstructure for Subsequent Milling
(2022)
The aerospace industry uses nickel–iron alloys, e.g., FeNi36, to create moulding tools for composite materials, since these alloys have a low coefficient of thermal expansion. Nickel–iron alloys are hard-to-cut materials. The moulding tools are large in size and involve complex structures, making them cost-intensive and difficult to manufacture. Thus, the focus is set on additive manufacturing, which can additionally enable the repair of components in order to eliminate local defects. However, the process usually results in a heterogeneous microstructure and anisotropic mechanical properties. As there is a high demand for a precise and exact fit of the precision moulds and the surface quality, the welded components must be subsequently machined. Additionally, inhomogeneous microstructure may lead to unstable cutting forces and conditions. Consequently, a modification of the microstructure morphology is achieved through specific alloy modifications in order to stabilise and improve the subsequent machining process. Therefore, titanium and zirconium are chosen as modification elements with a maximum 1% weight percent and are added to nickel–iron alloy powder. The elements are alloyed, and build-up welded by plasma-transferred-arcwelding. The resulting microstructure morphology of the welded wall structure and the machining properties are then determined. It can be shown that titanium has a significant effect on the structural morphology of the welded layers, as well as on the machining.
Inductively coupled plasma-mass spectrometry (ICP-MS) is a well-established analytical method offering high sensitivity and multi-element analysis. ICP-MS has found acceptance in various application areas ranging from material analysis to applications in the life sciences. Within the last 15 years new strategies for the sensitive detection and accurate quantification of biomolecules in complex biomedical samples have been developed. Recent instrumental improvements have contributed to this progress.
As most of the biomolecules do not contain endogenous metals etectable with ICP-MS, bioconjugation with artificial metal-containing tags based on metal-loaded chelate complexes or nanoparticles is increasingly applied to determine biomolecules indirectly. Especially, the combination of immunohistochemical workflows using lanthanoid-tagged antibodies and ICP-MS detection provides new insights in the complexity and interdependency of cellular processes. Single-cell ICP-MS, also termed as mass cytometry, allows high-dimensional analysis of biomarkers in cell populations at single-cell resolution. For that purpose, lanthanoid isotope labelled antibodies are used to detect their corresponding target molecules. The visualisation of the elemental distribution is possible with laser ablation ICP-MS (LA-ICPMS) at high spatial resolution. Especially, the combination of LA with ICP time-of-flight mass spectrometry, also referred to as imaging mass cytometry (IMC), opens new possibilities for multiparametric tissue imaging at the single-cell level and even below. The lanthanoid localisation and concentration can be linked to their conjugated antibody target providing valuable information about surface markers, intracellular signalling molecules to measure biological function, and the network state of an individual cell in a tissue.
This book chapter focuses on new applications, where the multi-element capabilities of ICP-MS are used for the detection of lanthanoids applied as artificial elemental stains or tags for biomolecules and in particular antibodies.
The Oxygen Pressure Surge Test (OPST) is considered to be best practice for evaluating the burn out safety of plant components and testing the compatibility of nonmetallic materials for oxygen service. Nevertheless, there are only a few laboratories worldwide performing the OPST. The Federal Institute for Materials Research and Testing (BAM) already operates oxygen pressure surge test facilities with maximum OPST pressures of 450 bar.
However, to ensure technical innovation and to enhance research and development, the decision was made to develop a new and large-scale oxygen pressure surge test facility. Due to the size and the high potential impact energies, the test facility is located outside of Berlin at BAM Test Site for Technical Safety (TTS), where large scale testing is carried out. In addition to an intended maximum OPST pressure of 750 bar, there is the possibility of testing industrial equipment with large inner volumes and diameters. The new quick opening valve constitutes the core of the system and was developed by BAM. It allows to perform tests with the standardized pressure rise times of 15 ms to 20 ms or with adjustable pressure rise times at higher or lower values. As a result, it is possible to provide customized test parameters for specific practical applications as well as research projects.
This presentation shows the status quo of this unique test facility, its performance, its technical specifications, and its new possibilities for research and development for a long term enhancement of burn out safety in oxygen application.
The general requirement, that nonmetallic materials for oxygen service must be tested and found suitable for their intended use in plants and components is the current state of technical safety. However, numerous requests of manufacturers, sales offices, and users show that there is still a strong need for information on how these materials are tested and evaluated. Based on more than 60 years of expertise, this paper provides background information on BAM’s test approach. It explains why BAM applies additional assessment criteria on nonmetallic materials for certain use conditions. Hence, the test schedule as well as the final evaluation shall reflect the practical application in a more customer-related way in combination with a higher safety level. That is the demand of BAM’s safety philosophy.
Reaktive Brandschutzsysteme
(2022)
Die Erkenntnisse zu reaktiven Brandschutzsystemen (RBS) werden kontinuierlich erweitert, was sich in der Entwicklung neuer Produkte und der Ausweitung des durch technische Regelungen abgedeckten Anwendungsbereichs äußert. Der vorliegende Beitrag konzentriert sich auf die Verwendung von RBS auf Stahlkonstruktionen. Neben einer umfassenden Darstellung der aktuellen nationalen und europäischen Regelungen zu RBS, werden technologische Besonderheiten und deren Einfluss auf den Regelungsinhalt im Beitrag thematisiert. Dabei werden neben sich abzeichnenden Neuerungen auch die entsprechenden wissenschaftlich-technologischen Grundlagen dargelegt. Ferner wird die Frage nach der Bewertung der Dauerhaftigkeit von RBS für deutlich über 10 Jahre hinausgehende Zeiträume, und den sich damit einstellenden Feuerwiderstand der Konstruktion behandelt. Der Beitrag schließt mit einer Darstellung zur aktuellen Forschung. Daraus abgeleitet wird ein Ausblick auf zukünftige Forschungsthemen.
Die Normenreihe DIN 68800 ist Ende der 2000er Jahre komplett überarbeitet worden. Der Kommentar bietet den interessierten Kreisen der Bauaufsicht, des Holzbaus, der Holzschutzmittelindustrie, der Wissenschaft, den Prüfinstituten, der Sägeindustrie, den Umweltverbänden, den Verbrauchern, den Schädlingsbekämpfern und Architekten wertvolle Hilfen bei der Anwendung und Interpretation der Norm.
Epoxy-Based Nanocomposites—What Can Be Learned from Dielectric and Calorimetric Investigations?
(2022)
Epoxy-based nanocomposites are promisingmaterials for industrial applications (i.e., aerospace, marine, and automotive industries) due to their extraordinary mechanical and thermal properties. Regardless of the broad field of applications, there is still a considerable need to identify their structure–property relationships. Here, a detailed dielectric and calorimetric (DSC and fast scanning calorimetry) study on different epoxy-based nanocomposites was performed. Bisphenol A diglycidyl ether (DGEBA) cured with diethylenetriamine (DETA) was employed as the polymeric matrix, which was reinforced with three diverse nanofillers that exhibit different interaction strengths with the epoxy matrix (halloysite nanotubes, surface modified halloysite nanotubes, and taurine-modified layered double hydroxide). The structure, molecular mobility, and vitrification behavior are discussed in detail, focusing on the intrinsic structural and dynamic heterogeneity, as well as interfacial properties.
The chapter gives a brief introduction to (nano)compositecomposite materials having the focus on polymer-based nanocomposites. The different dimensionalities of nanoparticles are introduced, along with their distribution in the matrix.
Different application fields of polymer-based nanocomposites, like flame retardancy, filled rubbers, nanofilled thermosets and thermoplastics, separation membranes and nanodielectrics, are considered in greater detail.
Brandschutz
(2022)
The important take home message of this chapter: When multicomponent flame retardant systems are applied to polymeric materials, it becomes possible to address multiple fire properties, increase efficiency, and minimize flame retardant use to maximize polymer property balance. Flame retardants are combined or used together with adjuvants or synergists; fibers and fillers make a crucial contribution to their fire properties. Multicomponent systems are discussed in their capacity as an overall powerful strategy for achieving and optimizing non-halogenated flame-retardant polymeric materials.
Der fabelhafte Möglichmacher
(2022)
In this paper, we discuss the importance of scientifically investigating cultural artefacts in a non-invasive way. Taking as test case Leonardo da Vinci’s Manuscript with anatomic drawings and notes, which is stored in Weimar, we clarify fundamental steps in the chronology of this folio. By means of microscopy, infrared reflectography, UV photography, and X-ray fluorescence analysis, we were able to identify various types of sketching material and several varieties of iron gall ink. For his sketches, Leonardo used two different sketching tools, a lead pencil and a graphite pencil, as well as several types of ink for developing these sketches into drawings. With regard to ink, it is important to observe that there is no difference between the ink Leonardo used for drawing and the ink he used for writing text. Based on the materials analysed, we suggest a chronology for the creation of this unique folio.
Our standard protocol for the characterisation of writing materials within advanced manuscript studies has been successfully used to investigate manuscripts written with a pure ink on a homogeneous writing surface. However, this protocol is inadequate for analysing documents penned in mixed inks. We present here the advantages and limitations of the improved version of the protocol, which now includes imaging further into the infrared region (1100−1700 nm).
Baustoffe im Betonbau
(2019)
In dem Kap. „Baustoffe im Betonbau“ werden zunächst die Baustoffe vorgestellt, die für die Herstellung von Stahlbeton- und Spannbetonbauwerken erforderlich sind (im Wesentlichen Beton, Betonstahl und Spannstahl). Herstellungsbedingte, typische Eigenschaftsprofile der Baustoffe werden aufgezeigt und ein Bezug zu entsprechenden Anwendungsgebieten hergestellt.
The characterization of the mechanical properties and behaviour of adobe masonry is fundamental for the understanding of the structural behaviour of adobe constructions. Thus, in the last decades, experimental studies focused on this topic have been carried out by different authors. Many of the existing experimental works, however, were carried out aiming to support broader studies focused on the seismic behaviour of adobe constructions and are not very detailed. Moreover, authors tend to adopt different procedures in their experimental work, since there are few indications in existing standards for testing adobe masonry. The wide variety in materials used, both for the adobes and mortars, further complicates this work, making it difficult to compare results obtained in different studies. This chapter provides an overview of the indications given by standards and other technical recommendations for the mechanical testing of adobe masonry. It presents a review of existing research on the mechanical behaviour of adobe masonry, addressing studies that focus on: (i) compression behaviour, (ii) shear behaviour, (iii) joint shear behaviour. It provides a global analysis of the existing knowledge, suggesting improvements for normative documents and identifying future Research needs.
The mechanical characterization of adobe bricks is an important first step in the study of the behaviour of adobe masonry. For this reason, in the last decades, different authors have conducted research on the mechanical behaviour of adobes from various regions of the world. Despite the importance of mechanical characterization, there are still only a few standards and normative documents with clear indications for the mechanical testing of earthen materials and, in general, These indications are not thorough and vary among different countries. Consequently, authors tend to adopt different types of test specimens and procedures in their experimental work, thus obtaining results that are not directly comparable. The fact that the materials and procedures traditionally used are also not standardized,varying greatly from region to region, also contributes to the difficulty of comparing results from different studies. This chapter presents a review of the indications provided by codes, standards and other technical recommendations for the mechanical testing of adobe bricks, as well as a detailed review of procedures adopted, and results obtained by different authors regarding the mechanical characterization of traditional adobe bricks. This chapter focuses, in particular, on the behaviour of adobe bricks when subjected to simple compression. It provides an overview of the existing knowledge and identifies needs for future research and development.
NDE 4.0 in Civil Engineering
(2021)
Civil engineering industry is one of the most important industry sectors in the worldwide economy. It contributes significantly to the gross economic product and general employment. Even more important, it provides many of the basic needs of the society (e.g., housing, infrastructure, and protection from natural hazards). The concept of “Industry 4.0” or “Smart Production” has not yet made significant progress in the civil engineering industry. The designing, building, and operating processes are still widely dominated by the exchange of printed documents and drawings. Most objects (buildings and other constructions) are unique, and a large part of the production still requires a large amount of manual labor. As-built documentation and quality assurance are often neglected. Civil engineering is among the industry sectors with the lowest level of digitalization and the lowest gain in productivity. However, this is going to change. In the past decade, several drivers have challenged the ways clients, contractors, and authorities currently operate. These drivers include but are not limited to an increasing demand for serialization and automatization or the mandatory introduction of “Building Information Modeling” (BIM) in public procurement as well as the upcoming use of digital twins. NDE plays an increasing role in quality assurance, condition assessment, and monitoring of structures. However, with very few exceptions, applications are mostly nonstandardized and performed only at selected sites. To change this, the NDT-CE community including manufacturers, service providers, clients, and the scientific community must work consistently on open data formats, interfaces to BIM, standardization, and validated ways for a quantitative use of the results in the assessment of constructions.
"The reassessment of bridges continues to take great importance both nationally and internationally. A major challenge is to find computation models reflecting the actual properties of the considered structures sufficiently accurate. Besides regular inspections, the conduction of advanced measurements is suitable to generate reliable information about a structure to be assessed. Prior to incorporating measurement results in reassessment, the relevance, the trueness, and the precision of the measured information needs to be stated. On the one hand, the use of information whose quality has not been assessed can lead to errors with serious consequences. On the other, the measurement of irrelevant information is inefficient. Although the use of measured data in assessment is currently mostly unregulated, their appreciation in reliability analyses is beneficial since the built environment can be assessed more realistically. Utilizing NDT in reassessment has the potential to extend remaining lifetimes of a structure, save resources, and improve infrastructural availabilities. The power of judgment regarding the decision on the reliability of an existing structure can be increased.
In this contribution, an approach is outlined to process non-destructively gathered measurement data in a comparableway in order to include themeasured information in probabilistic reliability assessments of existing structures. An essential part is the calculation of measurement uncertainties. The effect of incorporating evaluated NDT-results is demonstrated by means of a prestressed concrete bridge and GPR measurements conducted on this bridge as a case-study. The bridge is assessed regarding SLS Decompression using the NDT-results."
Laser-induced periodic surface structures (LIPSS) are a universal phenomenon and can be generated on almost any material by irradiation with linearly polarized radiation. This chapter reviews the current state in the field of LIPSS, which are formed in a “self-ordered” way and are often accompanying materials processing applications. LIPSS can be produced in a single-stage process and enable surface nanostructuring and, in turn, adaption of optical, mechanical, and chemical surface properties. Typically, they feature a structural size ranging from several micrometers down to less than 100 nm and show a clear correlation with the polarization direction of the light used for their generation. Various types of LIPSS are classified, relevant control parameters are identified, and their material-specific formation mechanisms are analyzed for different types of inorganic solids, i.e., metals, semiconductors, and dielectrics. Finally, technological applications featuring surface functionalization in the fields of optics, fluidics, medicine, and tribology are discussed.
Whilst a decisive role of the particle-matrix interphase on the mechanical properties of nanoparticle-filled polymers has been demonstrated in the last years, the arbitrary design of this interphase remains a very challenging goal. In principle, this could be realized via an appropriate surfacemodification of the nanofiller prior to its incorporation in the polymer. For most systems, such as for boehmite nanofillers, however, the interaction of organic modifiers with the particle surface has not been studied in detail, and only single studies are known rather than systematic investiga- tions on the effects of different chemical functions anchored on the particle surface. In this chapter, we present an extensive study on the binding of APTES, a common silane surface modifier, with boehmite, and show that thermogravimetric analysis (TGA) coupled with mass spectrometry (MS) is a convenient and highly suitable method to elucidate the ligand binding in detail. Furthermore, a two-step coupling strategy is presented, demonstrating that based on APTES anchored to the parti- cle surface, the condensation of various carboxylic acids can be utilized to enable highly diverse chemical properties of the nanofillers, which leads to very different particle-matrix interactions in the nanocomposites.
This paper presents the study of the impact caused by a liquid Cargo on a railway infrastructure. The dynamic behavior of a tank car corresponds to a multibody dynamic system with several degrees of freedom. This study’s data were obtained from a scale experimental fixture consisting of a track and a railcar with a tank. The track was instrumented with strain gauges and the railcar with accelerometers. The data showed non-periodic and periodic terms; therefore, the results were analyzed with the Empirical Mode Decomposition method (EMD).
It was found that the EMD identified the signal components that were related to the sloshing. These components represent the mode shapes of the original signal.
The location of the sloshing in the track was found applying spectrograms to the accelerometer data. This paper’s experimental outputs suggest that the sloshing effect is detectable at the track and in the vehicle dynamics.
Nondestructive evaluation (NDE) is entering an era of the fourth industrial revolution and will undergo a major transformation. NDE is a vital part of industry and a successful move to NDE 4.0, it will require not just developing and embracing new technologies, but also developing and adopting new ways of working and becoming an integral part of the overall Industry 4.0. This will pose new challenges for the inspection personnel. To ensure the expected benefits from NDE 4.0, inspectors need stay in charge of the changing inspections. The promised autonomy and interconnectedness of NDE 4.0 will supersede the majority of traditional inspector tasks and will in turn require a different set of skills and raise different demands and challenges for the inspection personnel, thus conflicting the current “procedure-following”-“level I-III” paradigm. The new industry 4.0 technologies can be integrated into the current framework, but exploiting their full potential requires changes in the role of the inspectors. The inspectors will be relieved from the tedious and error-prone aspects of the current system. At the same time, they will need to take responsibility for increasingly complex automated systems and work in closer collaboration with other experts. We propose that the traditional inspector roles will be transformed into that of the system developer, caretaker, and problem solver, each requiring a specific set of skills and assuming different responsibilities. For full NDE 4.0, NDE must abandon its traditional role as a self-contained entity with well-defined boundaries and take its role in the wider system that is the industry 4.0.
The large number of TEM investigations and the regular microstructure
of single-crystal nickel-base superalloys has boosted the development of a number of physically motivated constitutive laws. In contrast to the more phenomenological models discussed in the next chapter, these models use dislocation densities as internal variables. Obvious advantages are that the computed densities can be compared to TEM observations and the Deformation mechanisms can be easier translated into mathematical equations.
The elastic constants are the most basic mechanical properties of a material and are needed for any structural analysis of a component. For example, they have a major influence on the eigenfrequencies of vibrating parts. Single crystals of Ni-base superalloys are strongly anisotropic, which means that the observed properties are orientation dependent. Tensor algebra is then required to mathematically formulate the elastic properties and their relations to the crystal orientation. Hence, this chapter first summarizes some basic definitions and calculation rules for Rotation matrices, including the definition of the Euler angles, which are most commonly used to define the relative orientations of the crystal and the component. Parts of this chapter closely follow the lines of the excellent exposition of the topic by Olschewski.
Motor Vehicles
(2021)
The amount of plastic and synthetic materials is still growing in all sectors of everyday life. In the automotive industry, plastic materials are now widely used in vehicles because of their excellent mechanical properties and their light weight combined with low production costs. However, plastic materials are flammable and can generate toxic smoke gases which can endanger passengers’ lives in the event of fire.
Brandsicherheit von Bussen
(2021)
Grundsätzlich lässt sich sagen, dass Busbrände relativ häufig auftreten, auch wenn sich das im öffentlichen Bewusstsein nicht unbedingt widerspiegelt. In Deutschland gibt es keine einheitliche Brandstatistik, nach einer eigenen Internetrecherche brennt im Schnitt aber etwa an jedem zweiten Tag ein Bus in Deutschland.
Auch eine interne Umfrage eines Verbands von Busbetreibern bestätigte die Häufigkeit von Bränden: Ungefähr 1 Prozent der Busse hatte im Jahr einen Brandfall – wobei hier auch kleinere Ereignisse mitgezählt wurden. Die britische Statistik bestätigt diese Zahlen. Sie führt für die letzten 10 Jahre ca. 11900 Brände pro Jahr in Fahrzeugen, davon ca. 315 pro Jahr in Bussen auf. Brände in Bussen sind für die Passagiere eine große Gefährdung, da sie sich meist sehr schnell ausbreiten.
Zwei schwere Brände ereigneten sich in Deutschland 2008 und 2017.
Der Sensorik kommt bei der Digitalisierung der Prozessindustrie eine Schlüsselrolle zu. Entsprechend ist sie ein zentraler Baustein der NAMUR Open Architecture Konzepts (NOA). M+O-Sensoren (Monitoring + Optimization) - stellen eine neue Geräteklasse für die zusätzliche Überwachung und Optimierung von Anlagen der Prozessindustrie dar. Diese deckt klassische und alternative Messprinzipien bis hin zur Nachbildung der menschlichen Sinne ab. Hier werden die Anforderungen an M+O-Sensoren als Bestandteile der NOA beschrieben.
High-temperature corrosion is a widespread problem in various industries.
As soon as a hot and reactive gas (CO2, O2, H2O, SO2, NOx, etc.) is in contact with a solid, physico-chemical processes at the surface and interfaces lead to material degradation. The processes are dynamic and controlled by thermodynamic and kinetic boundary conditions. Whether a reaction product is protective or not depends on various factors, such as chemical composition of the solid and the reactive media, surface treatment as well as diffusion and transport paths of cations and anions. Resulting chemical and structural inhomogeneities with the corrosion layers are characterized by off stoichiometry within cationic and anionic sub lattices. The competitive processes can be studied by various techniques of applied crystallography.
This chapter gives an overview on the challenges of chemical-structural Analysis of reaction products by crystallographic methods such as X-ray diffraction and X-ray near-edge structure spectroscopy and scanning electron microscopy electron backscatter diffraction (SEM-EBSD) for corrosion science.
If a component is cyclically loaded, its load carrying capacity is considerably lower than in the monotonic loading case. This general observation applies in particular to L-PBF parts. The causes of this are mainly material defects such as pores and unwelded regions (Chapter 8) and a pronounced surface roughness in the as-built condition (Chapter 9). In addition, effects due to the anisotropy of the microstructure (Chapter 6) and a complex residual stress pattern (Chapter 7) play an important role. A consequence is that common strategies of fatigue assessment cannot be transferred to L-PBF applications without modifications. Due to the inhomogeneity of the material, the determination of representative material properties and the transfer to the component is a problem, and this is also the case with regard to the consideration of defects, surface roughness and residual stresses. The chapter gives a brief introduction to these problem areas.