AME 5 Q3

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When treating a single osmotic blister on a glass reinforced plastic (GRP) hull, which of the following procedures is most appropriate?

D. Heat the blister with a blowtorch until it deflates, then apply a layer of fiberglass cloth over the area to reinforce the hull.

A. Sand the blister until it is flush with the surrounding hull, then apply a layer of antifouling paint to seal the area.

B. Drill a small hole into the blister to release the pressure, then fill the void with epoxy resin before sanding and repainting the area.

C. Cut away the blistered area entirely, clean and dry the exposed surface, fill the void with a marine-grade filler, and then sand, prime, and repaint the area.

Correct Answer:

C. Cut away the blistered area entirely, clean and dry the exposed surface, fill the void with a marine-grade filler, and then sand, prime, and repaint the area.

Explanation: The proper procedure for treating a single osmotic blister involves removing the blistered area to expose the underlying void. Once the blister is cut away, the exposed surface must be thoroughly cleaned to remove any contaminants and dried completely to ensure that no moisture remains. After this, a marine-grade filler (such as an epoxy filler) is used to fill the void, restoring the hull's smooth surface. The area is then sanded to match the surrounding hull, primed to ensure good adhesion, and repainted to protect the repair. This method ensures that the blister is fully removed and the structural integrity of the hull is restored.

Incorrect Answers:

A. Sand the blister until it is flush with the surrounding hull, then apply a layer of antifouling paint to seal the area.

Why it's incorrect: Simply sanding the blister flush with the hull does not address the underlying cause of the blister, which is the accumulation of fluid and pressure within the laminate. Without removing the blister and treating the void, the problem may reoccur or worsen. Additionally, applying antifouling paint does not adequately seal or repair the damaged area.

B. Drill a small hole into the blister to release the pressure, then fill the void with epoxy resin before sanding and repainting the area.

Why it's incorrect: While drilling a hole might relieve pressure temporarily, it does not fully remove the damaged laminate or the contaminants within the blister. This method can leave weakened areas in the hull and might not effectively prevent the blister from reforming. The best practice is to remove the blister entirely rather than just draining it.

D. Heat the blister with a blowtorch until it deflates, then apply a layer of fiberglass cloth over the area to reinforce the hull.

Why it's incorrect: Using heat to deflate the blister is not a recommended practice and could cause further damage to the GRP laminate. Heat can weaken the resin and the fiberglass structure, leading to larger issues. Additionally, applying fiberglass cloth over the blister without removing the damaged material does not properly address the underlying problem and may lead to further blistering or structural weaknesses.

Correct Answer:

C. Cut away the blistered area entirely, clean and dry the exposed surface, fill the void with a marine-grade filler, and then sand, prime, and repaint the area.

Explanation: The proper procedure for treating a single osmotic blister involves removing the blistered area to expose the underlying void. Once the blister is cut away, the exposed surface must be thoroughly cleaned to remove any contaminants and dried completely to ensure that no moisture remains. After this, a marine-grade filler (such as an epoxy filler) is used to fill the void, restoring the hull's smooth surface. The area is then sanded to match the surrounding hull, primed to ensure good adhesion, and repainted to protect the repair. This method ensures that the blister is fully removed and the structural integrity of the hull is restored.

Incorrect Answers:

A. Sand the blister until it is flush with the surrounding hull, then apply a layer of antifouling paint to seal the area.

Why it's incorrect: Simply sanding the blister flush with the hull does not address the underlying cause of the blister, which is the accumulation of fluid and pressure within the laminate. Without removing the blister and treating the void, the problem may reoccur or worsen. Additionally, applying antifouling paint does not adequately seal or repair the damaged area.

B. Drill a small hole into the blister to release the pressure, then fill the void with epoxy resin before sanding and repainting the area.

Why it's incorrect: While drilling a hole might relieve pressure temporarily, it does not fully remove the damaged laminate or the contaminants within the blister. This method can leave weakened areas in the hull and might not effectively prevent the blister from reforming. The best practice is to remove the blister entirely rather than just draining it.

D. Heat the blister with a blowtorch until it deflates, then apply a layer of fiberglass cloth over the area to reinforce the hull.

Why it's incorrect: Using heat to deflate the blister is not a recommended practice and could cause further damage to the GRP laminate. Heat can weaken the resin and the fiberglass structure, leading to larger issues. Additionally, applying fiberglass cloth over the blister without removing the damaged material does not properly address the underlying problem and may lead to further blistering or structural weaknesses.

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Which of the following best explains the process of osmosis in glass reinforced plastic (GRP) hulls and the formation of osmotic blisters in service?

C. Osmosis is the process by which air bubbles are trapped in the GRP during the manufacturing process, leading to weakened spots in the hull. Over time, these spots expand and form osmotic blisters.

A. Water molecules diffuse from areas of low concentration to areas of high concentration within the hull, causing the GRP to weaken and leading to the formation of cracks.

D. The process of osmosis involves the GRP material absorbing water, which causes the fiberglass to swell and create uneven surfaces, eventually leading to the formation of large cracks in the hull.

B. Osmosis occurs when water molecules pass through the GRP laminate, entering voids and reacting with soluble materials within the laminate. This results in the build-up of pressure, causing the GRP layers to separate and form blisters.

Correct Answer:

B. Osmosis occurs when water molecules pass through the GRP laminate, entering voids and reacting with soluble materials within the laminate. This results in the build-up of pressure, causing the GRP layers to separate and form blisters.

Explanation: Osmosis in GRP hulls happens when water molecules diffuse through the semi-permeable GRP laminate. Inside the laminate, the water reacts with soluble substances (like uncured resin or contaminants) present in the voids or defects. This reaction creates a liquid with a higher concentration of dissolved substances than the surrounding water, which draws more water into the void. As more water enters, pressure builds up, leading to the separation of the GRP layers and the formation of osmotic blisters on the hull. These blisters can cause structural damage if left untreated.

Incorrect Answers:

A. Water molecules diffuse from areas of low concentration to areas of high concentration within the hull, causing the GRP to weaken and leading to the formation of cracks.

Why it's incorrect: Osmosis typically involves water moving from an area of higher concentration (outside the hull) to an area of lower concentration (inside the laminate). The description of diffusion from low to high concentration contradicts the basic principle of osmosis. Moreover, the formation of cracks is not the primary result of osmosis; rather, osmotic blisters are the typical outcome.

C. Osmosis is the process by which air bubbles are trapped in the GRP during the manufacturing process, leading to weakened spots in the hull. Over time, these spots expand and form osmotic blisters.

Why it's incorrect: This option confuses osmosis with air entrapment during the manufacturing process. Air bubbles in the GRP may cause defects, but they are not related to the osmotic process. Osmosis specifically involves the movement of water molecules and the chemical reactions that occur inside the laminate, not the presence of air bubbles.

D. The process of osmosis involves the GRP material absorbing water, which causes the fiberglass to swell and create uneven surfaces, eventually leading to the formation of large cracks in the hull.

Why it's incorrect: While GRP does absorb some water over time, the swelling of fiberglass and the formation of large cracks are not the direct results of osmosis. The primary concern with osmosis is the formation of blisters due to pressure build-up, not cracking due to swelling. Additionally, the swelling described here is not the same as the osmotic blistering process.

Correct Answer:

B. Osmosis occurs when water molecules pass through the GRP laminate, entering voids and reacting with soluble materials within the laminate. This results in the build-up of pressure, causing the GRP layers to separate and form blisters.

Explanation: Osmosis in GRP hulls happens when water molecules diffuse through the semi-permeable GRP laminate. Inside the laminate, the water reacts with soluble substances (like uncured resin or contaminants) present in the voids or defects. This reaction creates a liquid with a higher concentration of dissolved substances than the surrounding water, which draws more water into the void. As more water enters, pressure builds up, leading to the separation of the GRP layers and the formation of osmotic blisters on the hull. These blisters can cause structural damage if left untreated.

Incorrect Answers:

A. Water molecules diffuse from areas of low concentration to areas of high concentration within the hull, causing the GRP to weaken and leading to the formation of cracks.

Why it's incorrect: Osmosis typically involves water moving from an area of higher concentration (outside the hull) to an area of lower concentration (inside the laminate). The description of diffusion from low to high concentration contradicts the basic principle of osmosis. Moreover, the formation of cracks is not the primary result of osmosis; rather, osmotic blisters are the typical outcome.

C. Osmosis is the process by which air bubbles are trapped in the GRP during the manufacturing process, leading to weakened spots in the hull. Over time, these spots expand and form osmotic blisters.

Why it's incorrect: This option confuses osmosis with air entrapment during the manufacturing process. Air bubbles in the GRP may cause defects, but they are not related to the osmotic process. Osmosis specifically involves the movement of water molecules and the chemical reactions that occur inside the laminate, not the presence of air bubbles.

D. The process of osmosis involves the GRP material absorbing water, which causes the fiberglass to swell and create uneven surfaces, eventually leading to the formation of large cracks in the hull.

Why it's incorrect: While GRP does absorb some water over time, the swelling of fiberglass and the formation of large cracks are not the direct results of osmosis. The primary concern with osmosis is the formation of blisters due to pressure build-up, not cracking due to swelling. Additionally, the swelling described here is not the same as the osmotic blistering process.

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