DE102017010280A1 - Means for reversible volatile matting or detection of optically difficult or non-measurable objects - Google Patents

Abstract

The invention relates to a means for the reversible volatile matting or detection of optically difficult or immeasurable objects with reflection, gloss, absorption, color contrast and / or disturbing textures and / or open porous material structure for temporary optical sealing and creating optimal measurement conditions on the light to be probed Surfaces. The object of the invention is to provide a relevant means by which thin optically active layers with uniformly diffuse reflection or high emission can be applied to test objects, the agent being intended to be removed without residue in a relatively short time due to its volatility. The object is achieved by the agent contains adamantane as a component of a mixture with cyclohexane or iso-propanol and / or cyclododecane.

Description

The invention relates to a means for the reversible volatile matting or detection of optically difficult or immeasurable objects with reflection, gloss, absorption, color contrast and / or disturbing textures and / or open porous material structure for temporary optical sealing and creating optimal measurement conditions on the light to be probed Surfaces.

The quality of photometric and radiometric measurements is essentially determined by the reflection, scattering or emission properties of the respective surfaces to be measured. For light-based profile measuring methods, diffuse light reflection on the outer boundary surfaces of the measurement object is often sought. For non-contact temperature measurements with pyrometers and thermographic cameras, the temperature-dependent spectral emissivity for the material of the measurement object must be known and the detected surface for the infrared measurement radiation must have the highest possible emission value.

Many of the currently available photometric profilometers in the visible spectral range reach their limits of use, if completely transparent, translucent, absorbing, reflective or glossy surfaces are to be measured. Additional measures for adapting illumination, sensor and optical imaging to the object properties are then often not effective for optimal imaging. Measuring and positioning strategies for avoiding erroneous measurements or for reducing artifacts often require not only expert knowledge but also a great deal of methodological, time and equipment-related effort.

In order to prepare non-measurable or difficult-to-measure object surfaces for optical 3D scanning, whitening agents based on inorganic pigment substances (for example titanium dioxide, chalk or barium sulfate) are usually used. The use of non-volatile antireflective agents from product photography based on stable hydrocarbons is also common.

When pre-treating the surfaces with white pigments, the sprayed-on powder coating is only loosely and can be damaged quickly when touched. Due to the relatively thick white layers with high granularity, significant measurement distortions occur when using optical micrometry technology such as confocal, triangulation-based, autofocusing and focus variation-based methods.

Permanent dyes are also used in surface inspection on welds and safety components to better visualize wrinkles, pores and cracks. The visualization of these defects is based on the principle of color penetration.

Non-contact thermographic temperature measurements are performed on smooth metal surfaces for reliable detection of IR radiation resistant paints and pigments with high spectral emissivity to avoid directional reflections and large emissivity variations.

However, these methods of preparation with the aim of matting surfaces or exposing surface defects by increasing the contrast are only suitable for measuring objects and measuring rooms in which no purity requirements exist. The deposited on valuable objects resistant reflection layers must then be removed again. In the coating of extended surfaces, such cleaning is complex and is not always satisfactory, because residual material can be left behind. For sensitive and filigree measurement objects (for example, structural components of precision engineering with microcavities or open-porous structure), application of such long-term stable agents inevitably leads to irreversible contamination or abrasions on the surface.

Therefore, it is desirable to apply to visually incompatible object surfaces thin optically effective contact-resistant layers with uniform diffuse reflection in all directions and in the spectrum of the measurement light or the measuring radiation used, which dissolve automatically without residue after a certain period of time without additional steps, so that the measurement object again in original condition. For this means are suitable, which are volatile at room temperature or a slightly higher temperature. Consequently, such agents remove due to their volatility in a relatively short time without residue, so that removal of the layer inevitably deleted.

A related technical solution is out DE 44 02 074 C2 known. In this case, a liquid preparation is first applied to the surface of a measurement object whose reflection properties are to be changed by spraying or by means of a brush. Immediately after the time of application of this layer, a solvent contained in the liquid preparation volatilizes. As a result, only one solute remains on the object surface. This substance forms a white opaque on a physical basis in combination with a solvent such as ethanol Surface covering. This coating has diffuse reflection and scattering properties and is therefore used as a measuring layer. The substance component which forms this layer is a compound that can be sublimated even at room temperature. As a result, this layer also volatilizes automatically after a certain residence time on the object. By using conventional solvents during processing, however, a reaction with the test object is not excluded.

Furthermore, it is known to use volatile film formers such as cyclododecane and camphene for applications in the field of restoration or preservation for the mechanical stabilization and sealing of objects or surfaces. So concerns EP 2 829 328 A1 an application device for applying a sublimable and condensable compound on component surfaces. Preferably, cyclododecane is used, which is advantageously used for the restoration of paper documents.

Although the substances already known from restoration and preservation, such as cyclododecane, camphene and menthol, are basically also suitable for metrological applications, there is a need for development in this respect for the use of other substances in order to be able to achieve even better measurement results for the specific application. For example, an application of cyclododecane from spray cans is only conditionally suitable for the production of temporary measurement layers, because the dosing is difficult and because a strong crystallization occurs during the application. This results in relatively coarse layers with irregular layer thickness, which are not suitable for performing high-resolution optical scans.

In addition, there is a great need to use the reversible coating technology with volatile solids for the optical micro and nano-technology, the optical surface inspection and the radiation-based temperature measurement.

The object of the invention is therefore to propose further means by which thin optically active layers with uniformly diffuse reflection or high emission can be applied to test objects, the means being intended to be removed without residue in a relatively short time due to their volatility. The aim is thus the use of chemically inert hydrocarbons with a relatively high optical refractive index, which already pass under normal conditions or with a slight increase in temperature from the solid to the gaseous state. Thus, in particular new possibilities for a gentle matting, sealing and preservation of functional surfaces are to be created on DUTs.

This object is achieved according to the invention by the fact that the agent contains adamantane as a component of a substance mixture with cyclohexane, isopropanol or with cyclododecane.

Advantageous embodiments are the subject of dependent claims whose features are explained in more detail in one embodiment.

The basic approach thus relates to a surface application of adamantane with other components for reversible volatile matting or evidence of optically difficult or immeasurable objects with reflection, gloss, absorption, color contrast and / or disturbing textures and / or open porous material structure for temporary optical sealing and creation optimum measuring conditions on the surfaces to be touched with light.

Hereinafter, embodiments of the invention are explained:

The composition according to the invention is designed for the reversible volatile matting or detection of objects that are difficult or impossible to measure with reflection, gloss, absorption, color contrast or / and disruptive textures or / and openly porous material structures. At the same time, optimal conditions of measurement on the surfaces to be touched by light are to be created by temporary optical sealing.

In order to apply adamantane as a solution at room temperature, an agent is proposed which consists of 0.5 to 13% by weight of adamantane and 99.5 to 87.0% by weight of cyclohexane. For heated application at temperatures of 35 ° C, a more concentrated agent is preferred which contains up to 16.5% by weight of adamantane and at least 83.5% by weight of cyclohexane.

Alternatively, it is proposed that the agent contains adamantane as a component of a substance mixture with isopropanol. Preferably, the agent contains 0.5 to 5.0% by weight adamantane and 99.5 to 95.0% by weight iso-propanol. The application of the agent can be carried out at temperatures between 20 ° C and 50 ° C depending on the molar ratio. Since the solubility of the solvent increases with increasing temperature, higher concentrations of adamantane are possible for application with greater heating of the mixture.

As another alternative it is suggested that the agent adamantane as a component a mixture of iso-propanol and cyclododecane.

In this composition, in a first variant, the agent preferably contains 0.5 to 8% by weight of adamantane, 15.5 to 8% by weight of cyclododecane and 84% by weight of isopropanol. The application of the resulting mixture of substances can be carried out in the temperature range between 20 ° C and 45 ° C depending on the molar ratio.

In a second variant in this respect, the agent preferably contains 5 to 10% by weight of adamantane, 29 to 57% by weight of cyclododecane and 66 to 33% by weight of isopropanol. The application of the agent can be carried out from a temperature of 34 ° C to below the boiling point of the solvent used.

Finally, in addition to adamantane, cyclohexane, iso-propanol or cyclododecane, the agent may also contain at least one further component of the solvents ethanol, mineral spirits or 2-methyl-butane and be applied under consideration of the specific boiling points of the components.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 4402074 C2 [0010]
• EP 2829328 A1 [0011]

Claims (8)

Means for the reversible volatile matting or detection of optically difficult or not measurable objects with reflection, gloss, absorption, color contrast and / or disturbing textures and / or open porous material structure for temporary optical sealing and creation of optimal measuring conditions on the surfaces to be light-etched, characterized in that the agent contains adamantane as a component of a substance mixture with cyclohexane. Means after Claim 1 , characterized in that the agent comprises 0.5 to 13.0% by weight of adamantane and 99.5 to 87.0% by weight of cyclohexane, the application of the agent being carried out at room temperature and the agent being significantly higher in weight when heated above room temperature % Adamantane may have. Means for the reversible volatile matting or detection of optically difficult or not measurable objects with reflection, gloss, absorption, color contrast and / or disturbing textures and / or open porous material structure for temporary optical sealing and creation of optimal measuring conditions on the surfaces to be light-etched, characterized in that the agent contains adamantane as a component of a substance mixture with isopropanol. Means after Claim 3 , characterized in that the agent has 0.5 to 5.0% by weight of adamantane and 99.5 to 95.0% by weight of isopropanol, the application of the agent depending on molar ratio in the temperature range from 20 ° C to 50 ° C. takes place and that the means at greater heating of more than 50 ° C may have significantly higher weight% adamantane. Means for the reversible volatile matting or detection of optically difficult or not measurable objects with reflection, gloss, absorption, color contrast and / or disturbing textures and / or open porous material structure for temporary optical sealing and creation of optimal measuring conditions on the surfaces to be light-etched, characterized in that the agent contains adamantane as a component of a substance mixture with cyclododecane. Means after Claim 3 and 5 , characterized in that the agent has 0.5 to 8% by weight of adamantane, 15.5 to 8% by weight of cyclododecane and 84% by weight of isopropanol, the application of the agent depending on molar ratio in the temperature range from 20 ° C to 45 ° C takes place. Means after Claim 3 and 5 characterized in that the agent comprises 5 to 10% by weight of adamantane, 29 to 57% by weight of cyclododecane and 66 to 33% by weight of isopropanol, the application of the agent depending on molar ratio in the temperature range from 34 ° C to below the boiling point of used solvent. Means after at least one of Claims 1 . 3 and 5 , characterized in that the mixture contains at least one further component of the solvents ethanol, mineral spirits or 2-methyl-butane.