Inspection of Sculptures, Paintings and Antique Artifacts
Baker Testing Services works with art museum curators, art dealers, conservators, and collectors to analyze objects such as sculptures and paintings. Using non-destructive testing (NDT) methods, important information and details undetectable to the naked eye have been revealed.
With enhanced non-destructive testing methods, it is possible to:
- Examine the interior structure of a sculpture or object. Statues from antiquity have been tested to discover construction and connection methods that are crucial to restore or move priceless artifacts.
- Identify unseen surface flaws and determine the extent of cracks to assist conservators and restoration experts to identify areas that require repair or special handling
- Look beneath layers of paint for an original signature or identify the existence of a hidden, second painting on the same canvas
- “Reverse Engineer” antiques and artifacts reproduction
Baker Testing Services has tested cannons, bells, antique guns, paintings, and dozens of other artifacts including Statues from Egyptian, Roman, and Far-Eastern Antiquity.
Non-Destructive Testing Methods
Photograph courtesy Museum of Fine Arts
Working at the museum or in our laboratory, Baker Testing consults with each client to identify the scope of the project and advise on the non-destructive test (NDT) method to provide the best possible results. Common NDT methods for museum pieces and antiques artifacts include X-ray, Liquid Penetrant, Magnetic Particle and Ground Penetrating Radar.
Digital and film x-rays reveal intricate details and provide immediate results of internal structure and sub-surface material layers. Our radiographers hold nationally recognized certifications for radiation safety and expertise in specialized radiographic techniques.
Liquid Penetrant identifies surface flaws to assure surface integrity caused by wear or use over time. Penetrant inspections have been performed on antique cannons, bell components, ship rigging, and a wide variety of other cast or forged artifacts made of various materials to detect potential stress cracks or flaws.
By inducing a magnetic field in test objects, even tiny, otherwise invisible cracks and surface flaws can be readily detected in ferromagnetic materials, (metals with enough iron content to be magnetized). Antique firearms and century’s old fabricated artifacts have been tested with magnetic particle methods to prove surface integrity or detect minute flaws that could have major implications for use or display.
In the art world, Ground Penetrating Radar (GPR) inspection has been used on ancient stone statues, sculptures and supporting bases to determine if metal pins or rods are present in areas too thick for practical radiography. Radar signals reflected from metallic structures can determine their depth and location. This method has provided crucial information about the location, or even more important - the absence of metal support pins in priceless objects of antiquity. With this information, museum curators have eliminated the potential for accidental damage when an ancient sculpture or statue has to be moved.
To investigate the composition of metal artifacts from antiquity collections, Positive Material Identification (PMI) provides alloy identification and analysis.