Mould for thin sample casting

Abstract

Mould for casting of thin samples made of cement-based materials, for a maximum of 10 small samples (10×10×2 mm or ⅜×⅜× 1/16 inch), consists of a solid stainless steel base plate, stainless steel upper frame-plates and thin plastic foil. The stainless steel frame plates of various lengths are assembled on the base plate and fastened with screws to form a frame with 10 free spaces (‘cells’) into which the concrete/cementitious material is poured. The thickness (2 mm or 1/16 inch) of the thin frame plates determines the thickness of the cast samples. Plastic transparent foil is placed over the surface of the base plate for easier sample removal. The advantages of the mould are: possibility of assembling and disassembling of all mould parts and hence safe sample removal after 24 hours, multiple usage as well as easy maintenance and cleaning.

Claims

1. Mould for casting 2 mm ( 1/16 inch) thick cement-based samples for testing the behavior of cementitious materials during drying shrinkage and microcracking in an electron microscope (ESEM), further comprising the solid stainless steel base plate that presents the mould bottom.

2. Stainless steel base plate as in claim 1, further comprising screw holes drilled throughout its thickness.

3. Stainless steel base plate as in claim 2, further comprising a plastic, transparent, firm, thin foil with drilled screw holes, placed on plate to match the screw holes at upper plate surface and foil.

4. Stainless steel base plate as in claim 2, further comprising a frame assembled from the separate thin stainless steel plates of different lengths, with drilled screw holes throughout their thickness, placed to the plate and foil surface in such a way to create empty spaces (‘cells’) in between, for casting of 10 thin cement-based samples.

5. Stainless steel thin frame as in claim 4, further comprising the total of 25 screws that are used to fasten the frame plates to the foil and base plate, such that three screws are used to fasten each of the two longest rectangular plates at upper and lower frame side, three screws are used to fasten each of the two rectangular plates at left- and right-hand frame side, two screws are used to fasten each of the four rectangular plates in the middle of frame and one screw is used to fasten each of the five square plates in the middle of frame.

Description

BRIEF DESCRIPTION OF DRAWINGS

[0007] FIG. 1. Upper (plan) view of an assembled mould with rectangular base plate covered with foil, and mounted rectangularly shaped thin-frame that forms 10 empty spaces (‘cells’) for sample casting, all fastened with screws:

[0008] FIG. 1A. Cross section (1-1) of the assembled mould, through a rectangular middle frame plate and screws.

[0009] FIG. 1B. Cross section (2-2) of the assembled mould, through empty square ‘cells’, middle frame plates and screws.

[0010] FIG. 2. Upper (plan) view of a surface of base plate covered with foil and visible screw holes on both surfaces.

[0011] FIG. 2A. Cross section (3-3) of the base plate with foil, along the shorter axis, with visible and marked screw holes throughout the plate and foil thickness.

[0012] FIG. 2B. Cross section (4-4) of the base plate with foil, along the longer axis, with visible screw holes throughout the plate and foil thickness.

[0013] FIG. 3. Upper (plan) view of the horizontally and vertically symmetrical rectangular frame, made of thin plates of various lengths with screw-hole positions.

[0014] FIG. 3A. Upper (plan) view of the longest rectangular frame-plate(s) located at the upper and lower frame side as in FIG. 3, with visible screw-hole positions.

[0015] FIG. 3AA. Horizontal cross section of the longest rectangular frame-plate(s), through (visible) screw-hole spacings.

[0016] FIG. 3B. Upper (plan) view of the rectangular frame-plate(s), located at the far left and far right side of the frame as in FIG. 3, with screw-hole positions.

[0017] FIG. 3BB. Horizontal cross section of the rectangular frame-plate(s), through screw-hole spacings.

[0018] FIG. 3C. Upper (plan) view of the rectangular frame-plate(s), located in the middle of the frame as in FIG. 3, with screw-hole positions.

[0019] FIG. 3CC. Horizontal cross section of the rectangular frame-plate(s), through screw-hole spacings.

[0020] FIG. 3D. Upper (plan) view of the square frame-plate(s), located in the middle of the frame as in FIG. 3, with screw-hole position.

[0021] FIG. 3DD. Horizontal cross section of the square frame-plate(s), through screw-hole spacing.

DETAILED DESCRIPTION OF INVENTION

[0022] The multipurpose stainless-steel mould, with a possibility of assembling and disassembling, is created for casting a maximum of 10 cement-based samples size 10×10×2 mm (⅜×⅜× 1/16 inch).

[0023] The mould (fully assembled in FIGS. 1, 1A, 1B) consists of a solid stainless-steel plate 130×70×5 mm (13 ⅜×7 ⅜× 3/16 inch), FIGS. 1, 1A, 1B and FIGS. 2, 2A, 2B, a very thin plastic foil (visible on FIGS. 1, 1A, 1B and FIGS. 2, 2A, 2B) thickness of about 0,1 mm ( 1/320 inch), approximate size 126×66 mm (½×6 ⅜ inch), and the stainless-steel frame 110×50×2 mm (10 ⅜×10 3/16× 1/16 inch), FIG. 3. The frame consists of thin plates of different lengths: two thin plates size 90×10×2 mm ( 28/8×⅜× 1/16 inch), FIG. 3A, 3AA, two thin plates size 50×10×2 ( 15/8×⅜× 1/16 inch), FIG. 3B, 3BB; four thin plates size 30×10×2 mm ( 9/8×⅜× 1/16 inch), FIG. 3C, 3CC, and five thin plates 10×10×2 mm (⅜×⅜× 1/16 inch), FIG. 3D, 3DD. All stainless steel parts are smoothly polished.

[0024] The solid rectangular plate is used as the mould base, FIGS. 1, 1A, 1B and FIGS. 2, 2A, 2B. In order to prevent sample damaging due to their sticking to the plate surface, the base plate surface is covered with a rectangular, thin, transparent, plastic but firm foil of a similar area (all FIGS. 1 and 2) with drilled screw holes. Although the plate surface as well as the whole mould is smoothly polished, the sample sticking to the mould surface is very common, since the samples are thin and very young at the time of their removal from the mould (after 24 hours of casting). The foil has also a purpose of creating the extremely flat bottom of the samples for the experiments in ESEM chamber, where the samples are placed in the specially designed microscope cooling stage. The upper surface of the sample must also be an extremely smooth in order to obtain the clearest possible images on the electron microscope and their further analysis.

[0025] The rectangular frame is designed in such way to be disassembled into parts. The frame (FIG. 3) is mounted on top of the base plate and foil (FIG. 1). The frame consists of separate thin plates (FIGS. 3A-3DD), to form a symmetrical structure, narrower than the base plate. The narrower frame size (FIG. 1), was chosen for practical reasons, i.e., to ensure easier and safer handling of the mould and samples. The frame is assembled in such a way to create 10 empty spaces (‘cells’) of 10×10×2 mm (⅜×⅜× 1/16 inch) into which the cementitious materials are cast.

[0026] The lengths of thin plates are different. The two longest rectangular plates are placed at the upper and lower frame side (FIGS. 3, 3A, 3AA), the two shorter rectangular plates are placed at the far right- and left-hand side (FIGS. 3, 3B, 3BB), four rectangular plates are placed in the middle of the frame (FIGS. 3, 3C, 3CC) and five square plates are placed in the middle (FIGS. 3, 3D, 3DD). The advantage of frame that consists of loose plates instead of being a one whole frame, is to safely remove the samples from the frame, by removing screws and frame plates one by one. The design of frame gives the possibility to remove any of the inner, middle plates in order to cast a sample of dimensions other than 10×10×2 mm (⅜×⅜× 1/16 inch).

[0027] The screw holes size Φ 3,1 mm (Φ ⅛ inch) are drilled throughout the thickness of the base plate and the frame plates (presented in all Figures), to fasten the plate and frame into the whole with 25 identical screws. When mould is assembled, the total length of the screw-holes is 7 mm ( 2/8 inch). The 1 mm ( 1/32 inch) high heads of screws are planned to stick out of the frame surface for easier screw removal.

[0028] The mould is developed in steps, every time adding or changing some of its parts in order to improve their function. It started from the development of the so-called mini-mould** of the same inventor*, for casting of one sample size 30×30×2 mm ( 9/8× 9/8× 1/16 inch). The necessity for the specific ESEM experiment, contribute to the modifications of the frame for casting of smaller samples and subsequent enlargement of their numbers in a larger mould. During designing of the mould, mostly the thickness of the frame plates was changed due to the design of the sample holder in ESEM chamber. It was reduced from 10 mm ( 6/16 inch) to 2 mm ( 1/16 inch) and even to 1 mm ( 1/32 inch). Although the recommended sample thickness by the literature (for the drying experiments) was 1 mm ( 1/32 inch), it was not possible to remove 1 mm ( 1/32 inch) thick samples after 24 hours from the mould, when the thickness of the frame plates was only 1 mm ( 1/32 inch) without breaking them. Besides, it was necessary to polish their upper surface to be very smooth to create sharp images in ESEM. That is why the frame plate thickness was chosen to be 2 mm ( 1/16 inch). That allowed the safe sample removal from the mould as well as the possibility of perfect polishing later on by removing the sample surface layer of 1 mm ( 1/32 inch). *Inventor: MSc Dragana Jankovié, Structural Civil Engineer, UCF, Fla.**The inventor* was told that it was not necessary to apply mini-mould for the patent in US, since both moulds are similarly designed, with the same purpose.

[0029] The current mould design offers many possibilities. If samples of other dimensions need to be cast, that is possible by removing any of the inner frame plates, depending on the wanted sample size. Also, by adding a frame of another thickness (for example thickness of 5 mm or 3/16 inch), it would be possible to cast thicker samples of various sizes for other type of experiments or from other material. The usage of mould is as follows. After 24 hours from the time of sample casting in the assembled mould, the cement-based samples are carefully removed from mould by unscrewing the screws and releasing the plates one by one. In that way, samples are safely handled and the mould is disassembled. The samples are then carefully handled for further curing in the special climate chamber. The disassembled mould is then cleaned part by part with plain water, and dried with a soft, cotton cloth. The care is always taken to avoid any possible damage during cleaning. After every mould part is cleaned and dried, the mould is assembled again.