Patents by Inventor Raymond J. Donahue
Raymond J. Donahue has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 11524334Abstract: Methods for replacing an impingement site of a shot sleeve with an erosion resistant material, for manufacturing a shot sleeve for high pressure die casting of Aluminum Silicon alloys having an erosion resistant material at an impingement site, and for manufacturing a shot sleeve for high pressure die casting of aluminum silicon alloys containing 0.40% max Fe, having an erosion resistant material at an impingement site are disclosed. The shot sleeve assembly includes a shot sleeve including a pouring hole and a, impingement site. In certain embodiments a bushing assembly is implemented. The impingement site or bushing assembly includes a refractory metal tube constructed of erosion resistant material.Type: GrantFiled: June 8, 2021Date of Patent: December 13, 2022Assignee: Brunswick CorporationInventors: Raymond J. Donahue, Steven C. Knickel, Terrance M. Cleary, Kevin R. Anderson, Kevin R. Morasch, Mark R. Witzel
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Patent number: 11318530Abstract: A slide for the high pressure die casting of at least one closed deck engine block having at least one cylinder is disclosed. The slide includes a tool steel portion with reliefs for forming a water jacket surrounding each cylinder. At least one expendable core is located in each relief, the expendable core having an inner surface and an outer surface with an aperture extending therethrough. The outer surface and inner surface of the expendable core is coextensive with an inner surface and outer surface of the tool steel portion. A method for high pressure die casting a closed deck engine block using the disclosed slide and expendable cores is also disclosed. The expendable cores are separable from the reliefs in the slide, and form bridges or supports across a water jacket to add stiffness and rigidity to the cast engine cylinders.Type: GrantFiled: February 12, 2020Date of Patent: May 3, 2022Assignee: Brunswick CorporationInventors: Terrance M. Cleary, Kevin R. Anderson, Raymond J. Donahue, Alexander K. Monroe, Clayton T. Rasmussen
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Patent number: 11090714Abstract: Methods for replacing an impingement site of a shot sleeve with an erosion resistant material, for manufacturing a shot sleeve for high pressure die casting of Aluminum Silicon alloys having an erosion resistant material at an impingement site, and for manufacturing a shot sleeve for high pressure die casting of aluminum silicon alloys containing 0.40% max Fe, having an erosion resistant material at an impingement site are disclosed. The shot sleeve assembly includes a shot sleeve including a pouring hole and a, impingement site. In certain embodiments a bushing assembly is implemented. The impingement site or bushing assembly includes a refractory metal tube constructed of erosion resistant material.Type: GrantFiled: September 4, 2019Date of Patent: August 17, 2021Assignee: Brunswick CorporationInventors: Raymond J. Donahue, Steven C. Knickel, Terrance M. Cleary, Kevin R. Anderson, Kevin R. Morasch, Mark R. Witzel
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Patent number: 11047032Abstract: A method of heat treating high pressure die cast objects using pressure is disclosed. A high pressure die cast object is obtained and solution heat treated to above 700° F. for at least 2 hours at pressures between 0.5 and 35 KSI or at any pressure or range of pressures therebetween. This method of solution heat treatment with pressure reduces and/or eliminates blistered defects on the high pressure die cast object. The method of heat treating by solution heat treatment with pressure also allows an increase of yield strength and corresponding weight reduction upon redesign or substantially larger safety factors for the cast object.Type: GrantFiled: December 23, 2016Date of Patent: June 29, 2021Assignee: Brunswick CorporationInventors: Kevin R. Morasch, Kevin R. Anderson, Raymond J. Donahue, Christopher J. Misorski
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Patent number: 10596622Abstract: A slide for the high pressure die casting of at least one closed deck engine block having at least one cylinder is disclosed. The slide includes a tool steel portion with reliefs for forming a water jacket surrounding each cylinder. At least one expendable salt core is located in each relief, the salt core having an inner surface and an outer surface with an aperture extending therethrough. The outer surface and inner surface of the salt core is coextensive with an inner surface and outer surface of the tool steel portion. A method for high pressure die casting a closed deck engine block using the disclosed slide and expendable salt cores is also disclosed. The expendable salt cores are separable from the reliefs in the slide, and form bridges or supports across a water jacket to add stiffness and rigidity to the cast engine cylinders.Type: GrantFiled: December 13, 2018Date of Patent: March 24, 2020Assignee: Brunswick CorporationInventors: Terrance M. Cleary, Kevin R. Anderson, Raymond J. Donahue, Alexander K. Monroe, Clayton T. Rasmussen
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Patent number: 10486229Abstract: A shot sleeve assembly for use in the high pressure die casting of aluminum silicon alloys containing 0.40% maximum Fe is also disclosed. The shot sleeve assembly includes a shot sleeve including a pouring hole and a bushing assembly. The bushing assembly includes a refractory metal tube constructed of erosion resistant material surrounded by a bushing of conventional tool steel. The tube includes an opening and an impingement site located opposite the opening. The bushing includes an opening aligned with the opening of the tube, and an end plate. The bushing assembly is readily removed and inserted into the shot sleeve such that the openings of the bushing assembly align with the pouring hole of the shot sleeve. A method of replacing an impingement site of a shot sleeve with an erosion resistant material is also disclosed.Type: GrantFiled: August 7, 2017Date of Patent: November 26, 2019Assignee: Brunswick CorporationInventors: Raymond J. Donahue, Steven C. Knickel, Terrance M. Cleary, Kevin R. Anderson, Kevin R. Morasch, Mark R. Witzel
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Patent number: 10370742Abstract: A hypereutectic aluminum silicon high pressure die cast alloys is disclosed herein having 16% to 23% by weight silicon, 0.01% to 1.5% by weight iron, 0.01% to 0.6% by weight manganese, 0.01% to 1.3% by weight magnesium, 0.05% to 0.20% by weight strontium and the balance aluminum. The iron constituency may me modified to 0.01% to 0.7% by weight iron, or 0.01% to 0.2% by weight iron. The manganese constituency may be modified to 0.01% to 0.5% by weight manganese. The strontium constituency may be modified to 0.05% to 0.1% by weight strontium. The exhibits an elongation of at least 2%, an average ultimate tensile strength of greater than 250 MPa, and yield strength of greater than 200 MPa. The microstructure has a volume fraction of primary silicon at greater than 10% and a volume fraction of modified aluminum-silicon eutectic at 45% to 90%.Type: GrantFiled: September 13, 2016Date of Patent: August 6, 2019Assignee: Brunswick CorporationInventors: Raymond J. Donahue, Kevin R. Anderson, Terrance M. Cleary, Alexander K. Monroe
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Patent number: 10364484Abstract: A method and alloys for low pressure permanent mold casting without a coating are disclosed. The method includes preparing a permanent mold casting die that is devoid of die coating or lubrication along the die surface, preparing a permanent mold casting alloy, pushing the alloy into the die under low pressure, cooling the permanent mold casting, and removing the casting from the die. One alloy has 4.5-11.5% by weight silicon; 0.45% by weight maximum iron; 0.20-0.40% by weight manganese; 0.045-0.110% by weight strontium; 0.05-5.0% by weight copper; 0.01-0.70% by weight magnesium; and the balance aluminum. Another alloy has 4.2-5.0% by weight copper; 0.005-0.45% by weight iron; 0.20-0.50% by weight manganese; 0.15-0.35% by weight magnesium; 0.045-0.110% by weight strontium; 0.50% by weight maximum nickel; 0.10% by weight maximum silicon; 0.15-0.30% by weight titanium; 0.05% by weight maximum tin; 0.10% by weight maximum zinc; and the balance aluminum.Type: GrantFiled: March 28, 2017Date of Patent: July 30, 2019Assignee: Brunswick CorporationInventors: Raymond J. Donahue, Alexander K. Monroe, Kevin R. Anderson, Terrance M. Cleary
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Patent number: 10189079Abstract: A slide for the high pressure die casting of at least one closed deck engine block having at least one cylinder is disclosed. The slide includes a tool steel portion with reliefs for forming a water jacket surrounding each cylinder. At least one expendable salt core is located in each relief, the salt core having an inner surface and an outer surface with an aperture extending therethrough. The outer surface and inner surface of the salt core is coextensive with an inner surface and outer surface of the tool steel portion. A method for high pressure die casting a closed deck engine block using the disclosed slide and expendable salt cores is also disclosed. The expendable salt cores are separable from the reliefs in the slide, and form bridges or supports across a water jacket to add stiffness and rigidity to the cast engine cylinders.Type: GrantFiled: March 8, 2017Date of Patent: January 29, 2019Assignee: Brunswick CorporationInventors: Terrance M. Cleary, Kevin R. Anderson, Raymond J. Donahue, Alexander K. Monroe, Clayton T. Rasmussen
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Publication number: 20180282842Abstract: A method and alloys for low pressure permanent mold casting without a coating are disclosed. The method includes preparing a permanent mold casting die that is devoid of die coating or lubrication along the die surface, preparing a permanent mold casting alloy, pushing the alloy into the die under low pressure, cooling the permanent mold casting, and removing the casting from the die. One alloy has 4.5-11.5% by weight silicon; 0.45% by weight maximum iron; 0.20-0.40% by weight manganese; 0.45-0.110% by weight strontium; 0.05-5.0% by weight copper; 0.01-0.70% by weight magnesium; and the balance aluminum. Another alloy has 4.2-5.0% by weight copper; 0.005-0.45% by weight iron; 0.20-0.50% by weight manganese; 0.15-0.35% by weight magnesium; 0.045-0.110% by weight strontium; 0.50% by weight maximum nickel; 0.10% by weight maximum silicon; 0.15-0.30% by weight titanium; 0.05% by weight maximum tin; 0.10% by weight maximum zinc; and the balance aluminum.Type: ApplicationFiled: March 28, 2017Publication date: October 4, 2018Applicant: Brunswick CorporationInventors: Raymond J. Donahue, Alexander K. Monroe, Kevin R. Anderson, Terrance M. Cleary
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Publication number: 20180080108Abstract: A method of heat treating high pressure die cast objects using pressure is disclosed. A high pressure die cast object is obtained and solution heat treated to above 700° F. for at least 2 hours at pressures between 0.5 and 35 KSI or at any pressure or range of pressures therebetween. This method of solution heat treatment with pressure reduces and/or eliminates blistered defects on the high pressure die cast object. The method of heat treating by solution heat treatment with pressure also allows an increase of yield strength and corresponding weight reduction upon redesign or substantially larger safety factors for the cast object.Type: ApplicationFiled: December 23, 2016Publication date: March 22, 2018Inventors: Kevin R. Morasch, Kevin R. Anderson, Raymond J. Donahue, Christopher J. Misorski
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Patent number: 9878367Abstract: Congruent melting salt alloys for use as salt cores in high pressure die casting of metallic alloys for the production of complex metallic parts. Congruent melting salt alloys provide mechanical advantages in the high pressure die casting of both aluminum and magnesium alloys. Salt cores may be used to make complex high pressure die casting parts such as internal passages in a closed deck engine block. The congruently melting salt alloy is cast into a shape of a desired salt core. The cast salt core of the congruently melting slat alloy is placed into a high pressure die casting mold for a complex object. Molten metal is introduced into the high pressure die casting mold to form the complex part. The congruently melting salt alloys may be readily removed from the final cast part through flushing with a solvent, such as water, or through other processes known in the art.Type: GrantFiled: November 14, 2016Date of Patent: January 30, 2018Assignee: Brunswick CorporationInventors: Raymond J. Donahue, Mark T. Degler
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Publication number: 20170298479Abstract: A hypereutectic aluminum silicon high pressure die cast alloys is disclosed herein having 16% to 23% by weight silicon, 0.01% to 1.5% by weight iron, 0.01% to 0.6% by weight manganese, 0.01% to 1.3% by weight magnesium, 0.05% to 0.20% by weight strontium and the balance aluminum. The iron constituency may me modified to 0.01% to 0.7% by weight iron, or 0.01% to 0.2% by weight iron. The manganese constituency may be modified to 0.01% to 0.5% by weight manganese. The strontium constituency may be modified to 0.05% to 0.1% by weight strontium. The exhibits an elongation of at least 2%, an average ultimate tensile strength of greater than 250 MPa, and yield strength of greater than 200 MPa. The microstructure has a volume fraction of primary silicon at greater than 10% and a volume fraction of modified aluminum-silicon eutectic at 45% to 90%.Type: ApplicationFiled: September 13, 2016Publication date: October 19, 2017Applicant: Brunswick CorporationInventors: Raymond J. Donahue, Kevin R. Anderson, Terrance M. Cleary, Alexander K. Monroe
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Patent number: 9757795Abstract: An improved shot sleeve for high pressure die casting of low-iron aluminum silicon alloys and a method of making the shot sleeve, the shot sleeve includes a top portion including a pouring hole and a bottom portion including an impingement site on an inner surface of the bottom portion opposite the pouring hole. The impingement site is constructed of an erosion resistant material. The erosion resistant material is selected from: titanium, tungsten, molybdenum, ruthenium, tantalum, niobium, chromium, vanadium, zirconium, hafnium, boron or a secondary, tertiary or quaternary alloy formed from combination thereof. An erosion resistant insert located at an impingement site of a shot sleeve may accomplish the construction. The insert may be introduced into an internal surface of a conventional shot sleeve or replace a bottom portion of a conventional shot sleeve.Type: GrantFiled: July 7, 2015Date of Patent: September 12, 2017Assignee: Brunswick CorporationInventors: Raymond J. Donahue, Steven C. Knickel, Terrance M. Cleary, Kevin R. Anderson, Kevin R. Morasch, Mark R. Witzel
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Patent number: 9731348Abstract: An improved shot sleeve for high pressure die casting of low-iron aluminum silicon alloys and a method of making the shot sleeve, the shot sleeve includes a top portion including a pouring hole and a bottom portion including an impingement site on an inner surface of the bottom portion opposite the pouring hole. The impingement site is constructed of an erosion resistant material. The erosion resistant material is selected from: titanium, tungsten, molybdenum, ruthenium, tantalum, niobium, chromium, vanadium, zirconium, hafnium, boron or a secondary, tertiary or quaternary alloy formed from combination thereof. An erosion resistant insert located at an impingement site of a shot sleeve may accomplish the construction. The insert may be introduced into an internal surface of a conventional shot sleeve or replace a bottom portion of a conventional shot sleeve.Type: GrantFiled: July 7, 2015Date of Patent: August 15, 2017Assignee: Brunswick CorporationInventors: Raymond J. Donahue, Steven C. Knickel, Terrance M. Cleary, Kevin R. Anderson, Kevin R. Morasch, Mark R. Witzel
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Patent number: 9650699Abstract: A hypereutectic aluminum-silicon alloy is disclosed herein containing 18-20% by weight silicon, 0.03-0.20% by weight strontium and the balance aluminum, and alternatively with 3.0-6.0% by weight nickel. The alloy is substantially free of copper and manganese, but for any impurities that may exist. The alloy may also be substantially free of iron, but up to 1.2% by weight iron is permitted in certain embodiments. A more narrow strontium content of 0.05-0.10% by weight, may be used and the alloy may further include 0.3-1.2% by weight magnesium. In some embodiments 0.1-2.0% by weight nickel may be substituted with 0.1-2.0% by weight cobalt. The alloy of the present invention is preferably die cast resulting in castings that have a highly refined primary silicon microstructure with a modified eutectic structure and are highly ductile, but avoid soldering to the die casting dies.Type: GrantFiled: July 6, 2015Date of Patent: May 16, 2017Assignee: Brunswick CorporationInventors: Raymond J. Donahue, Kevin R. Anderson, Terrance M. Cleary, Alexander K. Monroe
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Patent number: 9527131Abstract: Congruent melting salt alloys for use as salt cores in high pressure die casting of metallic alloys for the production of complex metallic parts. Congruent melting salt alloys provide mechanical advantages in the high pressure die casting of both aluminum and magnesium alloys. Salt cores may be used to make complex high pressure die casting parts such as internal passages in a closed deck engine block. The congruently melting salt alloy is cast into a shape of a desired salt core. The cast salt core of the congruently melting slat alloy is placed into a high pressure die casting mold for a complex object. Molten metal is introduced into the high pressure die casting mold to form the complex part. The congruently melting salt alloys may be readily removed from the final cast part through flushing with a solvent, such as water, or through other processes known in the art.Type: GrantFiled: August 25, 2014Date of Patent: December 27, 2016Assignee: Brunswick CorporationInventors: Raymond J. Donahue, Mark T. Degler
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Patent number: 9114455Abstract: An improved shot sleeve for high pressure die casting of low-iron Aluminum Silicon alloys and a method of making the shot sleeve, the shot sleeve includes a top portion including a pouring hole and a bottom portion including an impingement site on an inner surface of the bottom portion opposite the pouring hole. The impingement site is constructed of an erosion resistant material. The erosion resistant material is selected from: titanium, tungsten, molybdenum, ruthenium, tantalum, niobium, chromium vanadium, zirconium, hafnium or a secondary, tertiary or quaternary alloy formed from combination thereof. An erosion resistant insert located at an impingement site of a shot sleeve may accomplish the construction. The insert may be introduced into an internal surface of a conventional shot sleeve or replace a bottom portion of a conventional shot sleeve.Type: GrantFiled: March 5, 2013Date of Patent: August 25, 2015Assignee: Brunswick CorporationInventors: Raymond J. Donahue, Steven C. Knickel, Terrance M. Cleary, Kevin R. Anderson, Kevin R. Morasch
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Patent number: 9114456Abstract: An improved shot sleeve for high pressure die casting of low-iron Aluminum Silicon alloys and a method of making the shot sleeve, the shot sleeve includes a top portion including a pouring hole and a bottom portion including an impingement site on an inner surface of the bottom portion opposite the pouring hole. The impingement site is constructed of an erosion resistant material. The erosion resistant material is selected from: titanium, tungsten, molybdenum, ruthenium, tantalum, niobium, chromium, vanadium, zirconiwn, hafnium or a secondary, tertiary or quaternary alloy formed from combination thereof. An erosion resistant insert located at an impingement site of a shot sleeve may accomplish the construction. The insert may be introduced into an internal surface of a conventional shot sleeve or replace a bottom portion of a conventional shot sleeve.Type: GrantFiled: March 14, 2013Date of Patent: August 25, 2015Assignee: Brunswick CorporationInventors: Raymond J. Donahue, Steven C. Knickel, Terrance M. Cleary, Kevin R. Anderson, Kevin R. Morasch, Mark R. Witzel
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Patent number: 9109271Abstract: A nickel containing hypereutectic aluminum-silicon sand cast alloy is disclosed herein containing 18-20% by weight silicon, 0.3-1.2% by weight magnesium, 3.0-6.0% by weight nickel, 0.6% by weight maximum iron, 0.4% by weight maximum copper, 0.6% by weight maximum manganese, 0.1% maximum zinc and balance aluminum. The alloy may have a more narrow nickel content of 4.5%-6.0% by weight, and up to 2% by weight cobalt. The alloy may be substantially free from iron, copper and manganese. The alloy of the present invention is preferably sand cast, and most preferably lost foam cast with a pressure of 10 ATM to produce engine parts with high thermal properties that are easily machined.Type: GrantFiled: March 14, 2013Date of Patent: August 18, 2015Assignee: Brunswick CorporationInventors: Raymond J. Donahue, Terrance M. Cleary, Kevin R. Anderson