Meß-Generator für Meterwellen
Abstract: Allgemeine Forderungen. Unter Meß-Generator versteht man eine Hochfrequenz-Quelle mit bekannter Frequenz, Spannung und Modulationsgrad. Frequenz und Spannung sind in bekannter Weise regelbar. Für die Frequenz genügt meist eine Genauigkeit des Absolutwertes von 0,5% und eine relative Genauigkeit, die genügt, Interferenz-Einstellungen im Hörbereich vorzunehmen. Zur Bestimmung von Selektionskurven ist in manchen Fällen noch eine Vorrichtung zweckmäßig, die eine kleine Frequenzänderung in bekannter Weise vorzunehm… Show more
Search citation statements
Paper Sections
Citation Types
Year Published
Publication Types
Relationship
Authors
Journals
Cited by 1 publication
References 0 publications
The article contains sections titled: 1. States of Order of Polymers 1.1. Glassy State and Melt 1.2. Crystalline State 1.3. Liquid Crystals 1.4. Blends and Block Copolymers 2. Properties and Testing 2.1. Mechanical Properties and Their Testing 2.1.1. Classification of Plastics Based on Mechanical Properties 2.1.2. Viscoelastic Behavior of Polymers 2.1.3. Mechanics of Deformation 2.1.4. Friction and Wear 2.1.5. Fracture Behavior 2.1.6. Control of Mechanical Properties through Orientation, Internal Stresses, and Morphology 2.1.7. Reinforced and Filled Plastics 2.2. Acoustic Properties and Their Testing 2.3. Thermal Properties and Their Testing 2.3.1. Specific Heat 2.3.2. Thermal Conductivity 2.3.3. Thermal Expansion 2.4. Electrical Properties and Their Testing 2.4.1. Insulating Properties 2.4.2. Dielectric Properties 2.4.3. Dielectric Strength 2.4.4. Electrets; Semiconducting and Conducting Polymers 2.5. Optical Properties and Their Testing 2.5.1. Refraction and Birefringence 2.5.2. Transmittance and Gloss 2.5.3. Color and Colorimetry 2.6. Density and Physical‐Chemical Properties and Their Testing 2.6.1. Density 2.6.2. Liquid Absorption and Swelling; Desorption of Plasticizers 2.6.3. Permeation of Gases and Vapors 2.7. Stability Properties and Their Testing 2.7.1. Water Absorption 2.7.2. Effect of Chemicals 2.7.3. Effects of Heat, Light, and Weathering 2.7.4. Effect of High‐Energy Radiation 2.7.5. Stability against Fire 2.7.6. Effect of Microorganisms 2.8. Processing Properties and Their Testing 2.8.1. Molding Compounds 2.8.2. Conventional Methods for Characterizing Flow Behavior 2.8.3. Rheology of Plastics
The article contains sections titled: 1. States of Order of Polymers 1.1. Glassy State and Melt 1.2. Crystalline State 1.3. Liquid Crystals 1.4. Blends and Block Copolymers 2. Properties and Testing 2.1. Mechanical Properties and Their Testing 2.1.1. Classification of Plastics Based on Mechanical Properties 2.1.2. Viscoelastic Behavior of Polymers 2.1.3. Mechanics of Deformation 2.1.4. Friction and Wear 2.1.5. Fracture Behavior 2.1.6. Control of Mechanical Properties through Orientation, Internal Stresses, and Morphology 2.1.7. Reinforced and Filled Plastics 2.2. Acoustic Properties and Their Testing 2.3. Thermal Properties and Their Testing 2.3.1. Specific Heat 2.3.2. Thermal Conductivity 2.3.3. Thermal Expansion 2.4. Electrical Properties and Their Testing 2.4.1. Insulating Properties 2.4.2. Dielectric Properties 2.4.3. Dielectric Strength 2.4.4. Electrets; Semiconducting and Conducting Polymers 2.5. Optical Properties and Their Testing 2.5.1. Refraction and Birefringence 2.5.2. Transmittance and Gloss 2.5.3. Color and Colorimetry 2.6. Density and Physical‐Chemical Properties and Their Testing 2.6.1. Density 2.6.2. Liquid Absorption and Swelling; Desorption of Plasticizers 2.6.3. Permeation of Gases and Vapors 2.7. Stability Properties and Their Testing 2.7.1. Water Absorption 2.7.2. Effect of Chemicals 2.7.3. Effects of Heat, Light, and Weathering 2.7.4. Effect of High‐Energy Radiation 2.7.5. Stability against Fire 2.7.6. Effect of Microorganisms 2.8. Processing Properties and Their Testing 2.8.1. Molding Compounds 2.8.2. Conventional Methods for Characterizing Flow Behavior 2.8.3. Rheology of Plastics
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.
Contact Info
customersupport@researchsolutions.com
10624 S. Eastern Ave., Ste. A-614
Henderson, NV 89052, USA
Product
Resources
This site is protected by reCAPTCHA and the Google Privacy Policy and Terms of Service apply.
Copyright © 2025 scite LLC. All rights reserved.
Made with 💙 for researchers
Part of the Research Solutions Family.
