Agglomerated boron nitride particles, production method for agglomerated boron nitride particles, resin composition including agglomerated boron nitride particles, moulded body, and sheet

The invention claimed is: 1. An agglomerated boron nitride particle (hereinafter referred to as “agglomerated BN particle”) constituted by boron nitride primary particles (hereinafter referred to as “BN primary particles”), wherein a peak area intensity ratio ((100)/(004)) of a (100) plane to a (004) plane of the BN primary particles is 0.25 or more, the peak intensity ratio being obtained by subjecting, to a powder X-ray diffraction measurement, a pellet-shaped sample moulded at a moulding pressure of 0.85 ton/cm 2 using a 10 mmφ powder pellet moulding machine, the average crystallite size of the BN primary particles obtained from a (002) plane peak of the BN primary particles is 375 Å or more, the average crystallite size being obtained as a result of filling a glass sample plate having a depth of 0.2 mm with the agglomerated BN particles in such a way that the sample surface becomes smooth, and subjecting the agglomerated BN particles to a powder X-ray diffraction measurement, and a specific surface area of the agglomerated BN particle is 8 m 2 /g or less. 2. The agglomerated BN particle according to claim 1 , wherein an average particle diameter D 50 of the agglomerated BN particle is 26 μm or more. 3. The agglomerated BN particle according to claim 1 , wherein the agglomerated BN particle is spherical. 4. The agglomerated BN particle according to claim 1 , wherein the agglomerated BN particle has a card-house structure. 5. A composition of the agglomerated BN particle which is a mixture of the agglomerated BN particle according to claim 1 and filler. 6. A resin composition comprising agglomerated BN particle, comprising resin and the agglomerated BN particles according to claim 1 . 7. A moulded body comprising the agglomerated BN particle according to claim 1 . 8. A method of producing the agglomerated BN particle according to claim 1 , comprising: granulating slurry of raw material boron nitride powder (hereinafter referred to as “BN slurry”); and performing heating treatment, wherein in the granulating, a viscosity of the BN slurry is 200 mPa·s or more and 5000 mPa·s or less, and the heating treatment is performed at 1800° C. or more and 2300° C. or less. 9. The method according to claim 8 , wherein an oxygen concentration in the raw material boron nitride powder is 1% by mass or more and 10% by mass or less. 10. A sheet comprising agglomerated boron nitride particles (hereinafter referred to as “agglomerated BN particles”), wherein a peak intensity ratio ((100)/(004)) of a (100) plane to a (004) plane of boron nitride primary particles (hereinafter referred to as “BN primary particles”) in the sheet obtained by subjecting the sheet to an X-ray diffraction measurement is 1.0 or more, an average crystallite size of the BN primary particles obtained from a (002) plane peak of the BN primary particles in the sheet obtained by subjecting the sheet to an X-ray diffraction measurement is 375 Å or more, and a specific surface area of the agglomerated BN particle is 8 m 2 /g or less. 11. The sheet according to claim 10 , wherein the peak area intensity ratio ((100)/(004)) of the (100) plane to the (004) plane of the boron nitride primary particles (hereinafter referred to as “BN primary particles”) in the sheet obtained by subjecting the sheet to an X-ray diffraction measurement is 0.6 or more. 12. A device comprising the sheet according to claim 10 as a part of a member of the device.